Research grants in US
52 opportunities
RESTORE Act Centers of Excellence Research Grants Program
→Treasury is publishing multiple funding opportunity notices for its RESTORE Act grant programs. This announcement applies only to the Centers of Excellence Research Grants Program.Trust Fund amounts are available to establish one or more Centers of Excellence through competitive subawards to nongovernmental entities and consortia in the Gulf Coast Region, including institutions of higher education. Funds may be used to establish Centers of Excellence, and by those Centers of Excellence for science, technology, and monitoring in one or more of the following disciplines as described in the RESTORE Act and Treasury’s implementing regulations at 31 CFR 34.704: 1) Coastal and deltaic sustainability, restoration, and protection, including solutions and technology that allow citizens to live in a safe and sustainable manner in a coastal delta in the Gulf Coast Region. 2) Coastal fisheries and wildlife ecosystem research and monitoring in the Gulf Coast Region. 3) Offshore energy development, including research and technology to improve the sustainable and safe development of energy resources in the Gulf of Mexico. 4) Sustainable and resilient growth, economic and commercial development in the Gulf Coast Region. 5) Comprehensive observation, monitoring, and mapping of the Gulf of Mexico.Eligible applicants issuing subawards to Center(s) of Excellence must establish and implement a program to monitor compliance with its subaward agreements.
Grant$14.5MCloses 2026-10-31USResearchCOE for Technical Training and Human Performance
→COE for Technical Training and Human Performance
Grant$1MCloses 2026-09-30USResearchCyberinfrastructure for Public Access and Open Science
→The Cyberinfrastructure for Public Access and Open Science (CI PAOS) program within the Office of Advanced Cyberinfrastructure (OAC) aims to catalyze new and transformative socio-technical partnerships supporting research data infrastructure ecosystems across d omains through early-stage collaborative activities between cyberinfrastructure researchers, scie ntists , research computing experts, data management experts , research labs , university libraries , and other communities of practice. The CI PAOS program supports the NSF Public Access Initiative by encouraging innovation across the CI ecosystem t o address accessibility, discoverability, reliability, reproducibility, sustainability, and utility of data products in alignment with NSF and national goals for public access and open science [ See: NSF Public Access Initiative , Office of Science and Technology Policy Memorandum on Ensuring Free, Immediate, and equitable Access to Federally funded Research , and Desirable Characteristics of Data Repositories for Federally Funded Research ] . CI PAOS builds on previous investments including those through Dear Colleague Letters NSF 19-069 , NSF 20 -068 , NSF 23-018 , and the FAIROS R esearch C oordination N etworks ( RCN ) p rogram solicitation ( NSF 22-553 ) . NSF accepts proposals pursuant to this Program Description year-round. From time to time , NSF may also issue Dear Colleague Letters to encourage proposals on special thema tic interests and opportunities related to this progra m . GUIDANCE TO POTENTIAL PROPOSERS A primary feature of successful CI PAOS projects is a robust, synergistic collaborative team comprising skills from across communities of science/engineering, research data science, and information science discipline(s) and expertise in leveraging connections between cyberinfrastructure researchers and providers and data specialists . Leveraging international collaboration to build shared norms and address c hallenges related to developing and implementing PAOS policies and practices is encouraged . Research and education in science and engineering benefit immensely from international cooperation. P roposals with an international component are also welcome [See: International Collaborations Opportunities at NSF ] . Proposers must target one or more of th e following themes/pathways: Competency Building, Capability Building, and /or Community Building. Competency Building Open s cience /engineering-driven collaboration . A socio -technical collaborative approach in addressing disciplinary , interdisciplinary , domestic, and international data lifecycle challenges is critical to informing and guiding the development of principles, requirements , and standards of a CI ecosystem that fosters pipelines to good data management and pathways to access. Propos al s should clearly describe the goals, challenges, and rationale for the proposed data science and engineering project and include an explanation of the potential for transformative research and broader impacts on the open science ecosystem [ See: U.S. NSF Broader Impacts ] . Successful proposals will also clearly identify utilization science scenarios and use cases . C apability Building Exploratory and pilot activities. <span class="TextRun SCXW92189242 BCX4" lang="EN-US" xml:lang="EN-US" d
Grant$600KUSResearchBiomechanics and Mechanobiology
→The Biomechanics and Mechanobiology (BMMB) program is part of the Mechanics of Materials cluster within the Division of Civil, Mechanical, and Manufacturing Innovation. The BMMB program supports fundamental and transformative research that advances our understanding of engineering biomechanics and/or mechanobiology. The program emphasizes the study of biological mechanics across multiple domains, from sub-cellular to whole organism. Distinct from conventional engineering materials, the program encourages the consideration of diverse living tissues as smart materials that are self-designing. BMMB projects must have a clear biological component, a clear mechanics component, and must improve our understanding of the mechanical behavior of a living system. Investigations of the mechanical behavior of biological molecules, cells, tissues, and living systems are welcome. An important concern is the influence of in vivo mechanical forces on cell and matrix biology in the histomorphogenesis, maintenance, regeneration, repair, and aging of tissues and organs. The program is also interested in efforts to translate recent biomechanical and mechanobiological discoveries into engineering science. Multiscale mechanics approaches are encouraged but not required. Projects may include theoretical, computational, or experimental approaches, or a combination thereof. NSF does not support clinical trials; however, feasibility studies involving human volunteers or animal subjects may be supported if appropriate to the scientific objectives of the project. Proposals should address the novelty and/or potentially transformative nature of the proposed work compared to previous work in the field. Also, it is essential to address why the proposed work is important in terms of engineering science, and to state the potential impact of success in the research on society and/or industry. Innovative proposals outside of these specific areas of biomechanics and mechanobiology will be considered. However, prior to submission of particularly unique topics, it is strongly recommended that Principal Investigators (PIs) contact the program director to discuss how the proposed work fits within the scope of the program and avoid the possibility of the proposal being returned without review. Related programs also fund certain aspects of biomechanics and mechanobiology research, and PIs are encouraged to examine these to find the appropriate program for submission. Proposals with a heavy emphasis on tissue engineering or developing validated models of tissue and organ systems should consider the Engineering of Biomedical Systems (EBMS) program.Projects addressing biological questions about the physiological mechanisms and structural features of organisms should consult the Physiological Mechanisms & Biomechanics (PMB) program.Projects elucidating aspects of neural control may consider the Perception, Action, & Cognition (PAC) program or the Mind, Machine, and Motor Nexus (M3X) program if the project contains work relevant to human-machine interaction. Projects in rehabilitation engineering should consider the Disability and Rehabilitation Engineering (DARE) program. Projects focused on fundamental research related to design, characterization, and modification of biomaterials should consider the Biomaterials (BMAT) program. Manufacturing systems proposals should consider the Advanced Manufacturing (AM) program. Work on the interplay between structure, dynamics, and function of biomolecules without advancing our understanding of the mechanics of a living system should consider the Molecular Biophysics program. Researchers who believe their work may span multiple programs are particularly encouraged to contact the cognizant program directors well in advance of submission. The duration of unsolicited proposal awards is generally up to three years; proposals for a shorter duration are welcome. Single-investigator award budgets typically include support for one graduate student (or equivalent trainee) and up to one month of PI time per year (awards for multiple investigator projects are typically larger). Proposal budgets or durations that are much larger than typical should be discussed with the program director prior to submission. Proposers can view budget amounts and other information from recent awards made by this program via the “What Has Been Funded (Recent Awards Made Through This Program, with Abstracts)” link towards the bottom of this page.
Grant$400KUSResearchR Package Development and Data Certification for the National Park Service Units of the National Capital Region and the Northeast
→The objective of this Agreement is to advance historic preservation at the local level by establishing a task agreement between the National Park Service and the National Alliance of Preservation Commissions (NAPC) to provide training opportunities, promote the Federal Certified Local Government program, and strengthen local preservation commissions by providing bi-annual State Certified Local Government Coordinator Training
Grant$90KUSResearchProbability
→The Probability Program supports research on the theory and applications of probability. Subfields include discrete probability, stochastic processes, limit theory, interacting particle systems, stochastic differential and partial differential equations, and Markov processes. Research in probability which involves applications to other areas of science and engineering is especially encouraged. Conferences Principal Investigators should carefully read the program solicitation "Conferences and Workshops in the Mathematical Sciences" (link below) to obtain important information regarding the substance of proposals for conferences, workshops, summer/winter schools, and similar activities. Conference and workshop proposals should be submitted eight months before the requested start date.
GrantCloses 2026-09-15USResearchFoundations
→The program in Foundations supports research in mathematical logic and the foundations of mathematics, including proof theory, recursion theory, model theory, set theory, and infinitary combinatorics. Conferences Principal Investigators should carefully read the program solicitation "Conferences and Workshops in the Mathematical Sciences" (link below) to obtain important information regarding the substance of proposals for conferences, workshops, summer/winter schools, and similar activities. Conference and workshop proposals should be submitted eight months before the requested start date.
GrantCloses 2026-09-22USResearchCombinatorics
→The Combinatorics program supports research on discrete structures and includes algebraic, enumerative, existential, extremal, geometric, and probabilistic combinatorics, including graph theory. Conferences Principal Investigators should carefully read the program solicitation "Conferences and Workshops in the Mathematical Sciences" (link below) to obtain important information regarding the substance of proposals for conferences, workshops, summer/winter schools, and similar activities. Conference proposals must be submitted at least six months in advance of the conference, and in the same fiscal year (which begins October 1) if possible.
GrantCloses 2026-09-22USResearchAnalysis
→The Analysis Program supports research in analysis. Areas of current activity include complex, harmonic, and real analysis; dynamical systems and ergodic theory; functional analysis; mathematical physics; operator theory and operator algebras; partial differential equations and calculus of variations. Conferences Proposals to the Analysis Program for conferences or workshops must be submitted through the program solicitation "Conferences and Workshops in the Mathematical Sciences" (link below). Principal Investigators should carefully read the solicitation to obtain important information regarding the substance of proposals for conferences, workshops, and similar activities. To facilitate timely notification of the availability of support, proposals for conferences, workshops, and similar activities should be submitted 8 months in advance of the start date of the proposed event.
GrantCloses 2026-09-30USResearchMathematical Biology
→The Mathematical Biology Program supports research in all areas of mathematical sciences with relevance to the biological sciences. Successful proposals must demonstrate mathematical innovation, biological relevance and significance, and strong integration between mathematics and biology. Some projects of interest to the Mathematical Biology Program may include development of mathematical theories, methodologies, and tools traditionally seen in other disciplinary programs within the Division of Mathematical Sciences. In general, if a proposal is appropriate for review by more than one NSF program, it is advisable to contact the program officers handling each program to determine when and where the proposal should be submitted and to facilitate the review process. The Mathematical Biology Program regularly seeks joint reviews of proposals with programs in the Directorates of Biological Sciences and other relevant programs. Investigators are encouraged to discuss their project with program officers in relevant areas to determine whether it could be considered by more than one program. Research in Undergraduate Institutions (RUI) Investigators submitting an RUI proposal should read the RUI solicitation (link below), as the rules for proposal format may deviate from the Proposal & Award Policies & Procedures Guide (PAPPG). EAGER and RAPID Proposals Prior to submitting proposals for EArly-concept Grants for Exploratory Research (EAGER) or Rapid Response Research (RAPID), Investigators must contact the cognizant program directors. Requests for Award Supplements Principal Investigatorsare encouraged to contact the cognizant program director prior to submission of a proposal for an award supplement. See the PAPPG for more information. Conferences Investigators should carefully read the program solicitation, "Conferences and Workshops in the Mathematical Sciences," (link below) to obtain important information regarding the substance of proposals for conferences, workshops, summer/winter schools, and similar activities. To facilitate timely notification of the availability of support: proposals for conferences, workshops, etc., to be held in the US must be submitted 8 months in advance of the conference date; proposals to support group travel to meetings outside the US must be submitted 12 months in advance of the meeting date.
GrantCloses 2026-10-14USResearchAlgebra and Number Theory
→The Algebra and Number Theory program supports research in algebra, algebraic and arithmetic geometry, number theory, and representation theory. Conference proposals The Algebra and Number Theory program also provides support for conferences, workshops, summer/winter schools, and similar activities. Proposals should be submitted to PD 20-1264 using the "Conference" proposal type in research.gov. Proposals with budgets not exceeding $50,000, which in accordance with NSF policy can be reviewed internally, should be submitted: in May for events that will take place in January through April of the following year in October for events that will take place in May through December of the following year. In order to allow time for external review, proposals with budget requests exceeding $50,000 should be submitted nine to twelve months before the event is scheduled to take place.
GrantCloses 2026-10-09USResearchLPS Qubit Collaboratory (LQC)
→The U.S. Army Research Office (ARO) in partnership with NSA’s Laboratory for Physical Science (LPS) is soliciting Incubator, Collaboration, and Fellowship research proposals for participation in the LPS Qubit Collaboratory (LQC). The mission of the LQC can be captured in three broad goals: 1) pursue disruptive fundamental research and enabling technologies with a focus on qubit development for quantum computing and other applications (such as sensing); 2) grow deep, collaborative partnerships to tackle the most difficult and relevant long-term problems in quantum information science and technology; and 3) build a quantum workforce of tomorrow through research experiences in government at LPS and at LQC partners. The LQC will offer a mechanism for collaborative research between LPS and academia, industry, FFRDCs, and Government Laboratories to advance foundational and transformative research on challenging problems that have hindered progress in quantum information processing and associated technologies. The goal of this BAA is to seek proposals that bring together expertise from the public and private sectors and their respective research infrastructures to advance solutions that may be best approached as a collaborative team. A Collaboratory is “a center without walls, in which the nation’s researchers can perform their research without regard to physical location, interacting with colleagues, accessing instrumentation, sharing data and computational resources, [and] accessing information in digital libraries. This BAA introduces LQC Research Thrusts ( A.1.1 ) which are the technical areas of interest—which will be updated periodically—where partners of the LQC will pursue joint research with LPS through Incubator ( A.1.2 ) and Collaboration ( A.1.3 ) collaborative agreements. The LQC BAA also fulfills the Government’s overarching interest--through the proposed research and on-site research experiences--in creating and training a workforce in quantum science and technology, generating pathways of solutions that feed technology development, establishing partnerships, and creating transition opportunities. In further support of training through research, Section A.1.4 calls for Quantum Computing Research (QuaCR) Graduate and Postdoctoral Fellowships for US citizens working in areas of interest. Substantial progress on solving the most difficult and long-term Quantum Information Science & Technology (QIST) research problems that unleash further rapid progress in the field will constitute LQC success. Examples of such research problems include (but are not limited to): limits of performance due to device design, material selection, and/or control, the exploration of alternative qubit physics (e.g., different approaches to qubit encoding or types of gates) and lowering of barriers to such approaches, advances in materials that improve qubit gate fidelity, reducing the overhead of classical components in quantum information technology and optimizing classical performance, and the exploration of applications of quantum technologies to new domains. Three categories of proposals are sought for this BAA: 1.Incubator opportunities seek partnership proposals from single investigators and small research groups, including teaching colleges, who may have unique skillsets to contribute toward the pursuit of the research thrusts presented in A.1.1. Incubator proposals may also be the development of concepts into a detailed technical research approach to advance solution of problems of high interest to quantum information science research. Incubator proposals would avail themselves of the collaboration opportunities with LPS research staff and infrastructure made available at the Laboratory for Physical Sciences (LPS) to lay the groundwork for concepts that may be suitable for a Collaboratory proposal or responses to other DoD quantum information science research opportunities. 2.Collaboratory proposals seek research proposals that bring together a strong significant collaboration--researchers from academia, industry, FFRDCs, and/or Government Laboratories--to pursue long-term projects focused on fundamental problems of interest to qubit development and/or associated science and technology. These collaborative groups will propose to work together in a focused manner for a period of time expected to be one to three years in order to demonstrate a proof-of-concept experiment and/or theory exploration to determine the feasibility of their creative idea. 3.QuaCR Research Fellowship proposals seek to support talented U.S. citizen graduate students and postdoctoral researchers in the field of quantum information processing (primary interest) and quantum sensing (secondary interest). Applicants with a background from either within or outside QIS are encouraged. The proposed research areas are described in this BAA and must enhance active Quantum Information Science research efforts being supported by the Army Research Office and/or LPS. Research fellows are encouraged to complete an LPS Internship during their graduate career or visit during their postdoctoral fellowship. Funding Opportunity Title: LPS Qubit Collaboratory Special Research Topics Announcement: W911NF21S0009-SPECIALNOTICE-1 The U.S. Army Combat Capabilities Development Command (DEVCOM), Army Research Laboratory (ARL)-Army Research Office (ARO) is looking for proposed research and development solutions under the Broad Agency Announcement (BAA) W911NF21S0009-2 for Basic and Applied Scientific Research in Quantum Computing. The title for this Special Notice is “LPS Qubit Collaboratory Special Topics.” Upon receipt, compliant proposals will be reviewed through a technical and programmatic process in accordance with the evaluation criteria referenced in the W911NF21S0009-2 LQC BAA to determine which proposal may be awarded Grant, Cooperative Agreement, or Procurement Contract under this topic.
GrantCloses 2027-04-30USResearchContinuing Human Enabling Enhancing Restoring and Sustaining
→The Air Force Research Laboratory, Human Effectiveness Directorate (AFRL/RH) and the United States Air Force School of Medicine (USAFSAM) CHEERS Multiple Authority Announcement (MAA) is intended to provide a comprehensive strategy for AFRL/RH and USAFSAM's range of Science and Technology (S&T) requirements, allowing for progression from basic research to technology maturation and transition. 20 Nov 2025: Amendment 01 - Annual Update The CHEERS Multiple Authority Announcement (MAA) MUST be reviewed in tandem with the solicitations in order to have access to all applicable attachments and instructions. There are three (3) open, 2-step, solicitations currently accepting white papers. Please see below for solicitation numbers. Multiple Authority Announcement (MAA), Notice FA238424S2233: 1. CHEERS MAA Open Period 1 – Broad Agency Announcement (BAA), Solicitation FA238424S2334 2. CHEERS MAA Open Period 2 – Procurement for Experimental Purposes (ARA), Solicitation FA238424S2335 3. CHEERS MAA Open Period 3 - Commercial Solutions Opening (CSO), Solicitation FA238424S2336 (NOTE: THIS CSO IS NOT GRANT-ELIGIBLE) Please reach out if you have any questions regarding the MAA and/or the solicitation(s). Technical questions may be directed to the technical POC’s identified in the announcement/solicitations. General questions may be directed to the CHEERS email org box: AFRL.711HPW.MAA@us.af.mil
GrantCloses 2044-08-22USResearchInterfacial Engineering
→The Interfacial Engineering program is part of the Chemical Process Systems cluster, which also includes: 1) the Catalysis program; 2) the Electrochemical Systems program; and 3) the Process Systems, Reaction Engineering, and Molecular Thermodynamics program. The goal of the Interfacial Engineering program is to support fundamental research on atomic- and molecular-scale interfacial phenomena and engineering of interfacial properties, processes, and materials. Fundamental understanding of the thermodynamic, kinetic, and transport properties of interfacial systems underpins improvements in chemical process efficiency and resource utilization. As such, proposed research should have a clear vision for how the results will translate to practice in or otherwise advance industrial chemical or biochemical processes. The program encourages proposals that present new approaches to long-standing challenges or address emerging research areas and technologies. Collaborative and interdisciplinary proposals are also encouraged, particularly those that involve a combination of experiment with theory or modeling. Major research areas of interest in the program include: Chemical separations: Design of scalable mass separating agents (for example, sorbents and membranes); field-induced separation processes that target a significant reduction in energy and/or materials requirements Biological separations: Downstream processing of biologically-derived chemicals, therapeutic proteins, and biologics for increased throughput and purity; engineering interfaces for molecular recognition Interfacial phenomena at engineered interfaces and surfaces: Kinetics and thermodynamics of adsorption/desorption and complex interactions of molecules and ions at engineered interfaces and surfaces within chemical process systems Nanoconfinement and engineered surfaces: Theory, modeling, and/or approaches for examining transport and thermodynamic properties of fluids within nanopores, under nanoconfinement, or at highly engineered surfaces within chemical process systems NOTE: Studies that examine chemical reaction and transport phenomena related to electrochemical system performance, including batteries, fuel cells, flow batteries, electrochemical conversions, and related components, should be directed to the Electrochemical Systems program (CBET 7644). Studies that focus on interactions of nanomaterials and nanosystems, particularly as relevant to environmental or biological applications, may be more appropriate for the Nanoscale Interactions program (CBET 1179). Studies of how interfacial dynamics affect transport or bulk properties of multiphase systems may be more appropriate for the Particulate and Multiphase Processes program (CBET 1415). Please consult with program directors prior to submission if you have questions about programmatic fit. Innovative proposals outside of these specific interest areas may be considered. The Principal Investigator is encouraged contact the Program Director prior to submission to avoid the possibility of the proposal being returned without review. INFORMATION COMMON TO MOST CBET PROGRAMS Proposals should address the novelty and/or potentially transformative nature of the proposed work compared to previous work in the field.Also, it is important to address why the proposed work is important in terms of engineering science, as well as to also project the potential impact on society and/or industry of success in the research.The novelty or potentially transformative nature of the research should be included, as a minimum, in the Project Summary of each proposal. The duration of unsolicited proposal awards in CBET is generally up to three years. Single-investigator award budgets typically include support for one graduate student (or equivalent) and up to one month of principal investigator time per year(awards for multiple investigator projects are typically larger). Proposal budgets that are much larger than typical should be discussed with the Program Director prior to submission. Proposers can view budget amounts and other information from recent awards made by this program via the “What Has Been Funded (Recent Awards Made Through This Program, with Abstracts)” link towards the bottom of this page. Faculty Early Career Development(CAREER)program proposals are strongly encouraged. Award duration is five years.The submission deadline for Engineering CAREER proposals is in July every year. Learn more in the CAREER program description . Proposals for Conferences, Workshops, and Supplements: PIs are strongly encouraged to discuss their requests with the Program Director before submission of the proposal. Grants forRapid Response Research(RAPID)andEArly-concept Grants for Exploratory Research(EAGER)are also considered when appropriate.Please note that proposals of these types must be discussed with the program director before submission. Grant Opportunities for Academic Liaison with Industry (GOALI)proposals that integrate fundamental research with translational results and are consistent with the application areas of interest to each program are also encouraged. Please note that RAPID, EAGER, and GOALI proposals can be submitted anytime during the year. Details about RAPID, EAGER, and GOALI are available in theProposal & Award Policies & Procedures Guide(PAPPG), Part 1, Chapter II, Section E. COMPLIANCE: Proposals which are not compliant with the Proposal & Award Policies & Procedures Guide (PAPPG) will be returned without review
GrantUSResearchBiophotonics
→TheBiophotonicsprogram is part of the Engineering Biology and Health cluster, which also includes: 1) theBiosensingprogram; 2) theCellular and Biochemical Engineeringprogram; 3) theDisability and Rehabilitation Engineeringprogram; and 4) theEngineering of Biomedical Systemsprogram. The goal of theBiophotonicsprogram is to explore the research frontiers in photonics principles, engineering and technology that are relevant for critical problems in fields of medicine, biology and biotechnology. Fundamental engineering research and innovation in photonics is required to lay the foundations for new technologies beyond those that are mature and ready for application in medical diagnostics and therapies. Advances are needed in nanophotonics, optogenetics, contrast and targeting agents, ultra-thin probes, wide field imaging, and rapid biomarker screening. Low cost and minimally invasive medical diagnostics and therapies are key motivating application goals. Research topics in this program include: Imaging in the second near infrared window:Research that advances medical applications of biophotonics in the second near-infrared window (NIR-II: 1,000-1,700 nm) in which biological tissues are transparent up to several centimeters in depth, making this spectral window ideal for deep tissue imaging. Macromolecule markers: Innovative methods for labeling of macromolecules. Novel compositions of matter. Methods of fabrication of multicolor probes that could be used for marking and detection of specific pathological cells.Pushing the envelope of optical sensing to the limits of detection, resolution, and identification. Low coherence sensing at the nanoscale: Low coherence enhanced backscattering (LEBS). N-dimensional elastic light scattering.Angle-resolved low coherence interferometry for early cancer detection (dysplasia). Neurophotonics:Studies of photon activation of neurons at the interface of nanomaterials attached to cells. Development and application of biocompatible photonic tools such as parallel interfaces and interconnects for communicating and control of neural networks. Microphotonics and nanophotonics:Development and application of novel nanoparticle fluorescent quantum-dots. Sensitive, multiplexed, high-throughput characterization of macromolecular properties of cells.Nanomaterials and nanodevices for biomedicine. Optogenetics: Novel research in employing light-activated channels and enzymes for manipulation of neural activity with temporal precision. Utilizing nanophotonics, nanofibers, and genetic techniques for mapping and studying in real-time physiological processes in organs such as the brain and heart. Innovative proposals outside of these specific interest areas may be considered. However, prior to submission, it is recommended that the Principal Investigator contact the program director to avoid the possibility of the proposal being returned without review. INFORMATION COMMON TO MOST CBET PROGRAMS Proposals should address the novelty and/or potentially transformative nature of the proposed work compared to previous work in the field. Also, it is important to address why the proposed work is important in terms of engineering science, as well as to also project the potential impact on society and/or industry of success in the research. The novelty or potentially transformative nature of the research should be included, as a minimum, in the Project Summary of each proposal. The duration of unsolicited proposal awards in CBET is generally up to three years. Single-investigator award budgets typically include support for one graduate student (or equivalent) and up to one month of PI time per year(awards for multiple investigator projects are typically larger). Proposal budgets that are much larger than typical should be discussed with the program director prior to submission. Proposers can view budget amounts and other information from recent awards made by this program via the “What Has Been Funded (Recent Awards Made Through This Program, with Abstracts)” link towards the bottom of this page. Faculty Early Career Development(CAREER)program proposals are strongly encouraged. Award duration is five years. The submission deadline for Engineering CAREER proposals is in July every year. Learn more in the CAREER program description . Proposals for Conferences, Workshops, and Supplements: PIs are strongly encouraged to discuss their requests with the program director before submission of the proposal. Grants forRapid Response Research(RAPID)andEArly-concept Grants for Exploratory Research(EAGER)are also considered when appropriate. Please note that proposals of these types must be discussed with the program director before submission.Grant Opportunities for Academic Liaison with Industry (GOALI)proposals that integrate fundamental research with translational results and are consistent with the application areas of interest to each program are also encouraged. Please note that RAPID, EAGER, and GOALI proposals can be submitted anytime during the year. Details about RAPID, EAGER, and GOALI are available in the Proposal & Award Policies & Procedures Guide(PAPPG), Part 1, Chapter II, Section E: Types of Proposals. Compliance: Proposals that are not compliant with the Proposal & Award Policies & Procedures Guide (PAPPG) will be returned without review.
GrantUSResearchCHEERS Open Period 2 - All Technical Areas
→The Air Force Research Laboratory, Human Effectiveness Directorate (RH) and the United States Air Force School of Aerospace Medicine (USAFSAM), is soliciting white papers (and potentially later technical and cost proposals) on the research located in the Continuing Enabling, Enhancing, Restoring and Sustaining (CHEERS) Multiple Authority Announcement (MAA) Statements of Objectives, FA238424S2233. This Solicitation is limited to those efforts that meet the requirements of 10 USC 4023, which includes the Secretary of Defense and the Secretaries of the military departments may each buy ordnance, signal, chemical activity, transportation, energy, medical, space- flight, telecommunications, and aeronautical supplies, including parts and accessories, and designs thereof, that the Secretary of Defense or the Secretary concerned considers necessary for experimental or test purposes in the development of the best supplies that are needed for the national defense. List of Attachments: 1. "Open Period Solicitation 1_ARA Amend 01" 2. "Attachment 1 - List of Provisions and Clauses (ARA)" Related Notice: Multiple Authority Announcement (MAA) FA238424S2233, "Continuing Human Enabling, Enhancing, Restoring and Sustaining (CHEERS)" Note: You MUST refer to the related notice identified above in order to obtain all additional attachments referenced herein (e.g. CHEERS Industry Guide, Statements of Objectives (SOO), and S&T Protection Appendices)
GrantCloses 2027-09-30USResearchEnvironmental Sustainability
→TheEnvironmental Sustainability program is part of theEnvironmental Engineering and Sustainabilitycluster together with 1) theEnvironmental Engineeringprogram and 2) theNanoscale Interactionsprogram. The goal of theEnvironmental Sustainabilityprogram is to promote sustainable engineered systems that support human well-being and that are also compatible with sustaining natural (environmental) systems. These systems provide ecological services vital for human survival. Research efforts supported by the program typically consider long time horizons and may incorporate contributions from the social sciences and ethics. The program supports engineering research that seeks to balance society's need to provide ecological protection and maintain stable economic conditions. There are five principal general research areas that are supported. Circular Bioeconomy Engineering:This area includes research that enables sustainable societal use of food, energy, water, nitrogen, phosphorus, and materials, with the reduction and eventual elimination of fossil fuel combustion that lacks carbon capture. The program encourages research that helps build the raw material basis for the functioning of society principally on biomass, drawing heavily on sustainable agriculture and forestry. Additionally, material flows must reduce or preferably eliminate waste, with an emphasis on closed-loop or “circular” processing. Industrial ecology:Topics of interest include advancements in modeling such as life cycle assessment, materials flow analysis, net energy analysis, input/output economic models, and novel metrics for measuring sustainable systems. Innovations in industrial ecology are encouraged. Green engineering:Research is encouraged to advance the sustainability of manufacturing processes, green buildings, and infrastructure. Many programs in the Engineering Directorate support research in environmentally benign manufacturing or chemical processes. The Environmental Sustainability program supports research that would affect more than one chemical or manufacturing process or that takes a systems or holistic approach to green engineering for infrastructure or green buildings. Improvements in distribution and collection systems that will advance smart growth strategies and ameliorate effects of growth are research areas that are supported by Environmental Sustainability. Innovations in management of storm water, recycling and reuse of drinking water, and other green engineering techniques to support sustainability may also be fruitful areas for research. Ecological engineering:Proposals should focus on the engineering aspects of restoring ecological function to natural systems. Engineering research in the enhancement of natural capital to foster sustainable development is encouraged. Earth systems engineering:Earth systems engineering considers aspects of large-scale engineering research that involve mitigation of greenhouse gas emissions, adaptation to climate change, and other global concerns. All proposed research should be driven by engineering principles, and be presented explicitly in an environmental sustainability context. Proposals should include involvement in engineering research of at least one graduate student, as well as undergraduates. Incorporation of aspects of social, behavioral, and economic sciences is welcomed. NOTE: Water treatment, air pollution (both outdoor and indoor), soil remediation, and solid waste treatment proposals are to besubmitted to theEnvironmental Engineeringprogram (CBET 1440). Innovative proposals outside the scope of the four core areas mentioned above may be considered. However, prior to submission, it is recommended that the Principal Investigator contact the program director to avoid the possibility of the proposal being returned without review. For proposals that call for research to be done on regions that are outside of the United States, an explanation must be presented of the potential benefit of the research for the United States. INFORMATION COMMON TO MOST CBET PROGRAMS Proposals should address the novelty and/or potentially transformative nature of the proposed work compared to previous work in the field. Also, it is important to address why the proposed work is important in terms of engineering science, as well as to also project the potential impact on society and/or industry of success in the research. The novelty or potentially transformative nature of the research should be included, as a minimum, in the Project Summary of each proposal. The duration of unsolicited proposal awards in CBET is generally up to three years. Single-investigator award budgets typically include support for one graduate student (or equivalent) and up to one month of PI time per year(awards for multiple investigator projects are typically larger). Proposal budgets that are much larger than typical should be discussed with the program director prior to submission. Proposers can view budget amounts and other information from recent awards made by this program via the “What Has Been Funded (Recent Awards Made Through This Program, with Abstracts)” link towards the bottom of this page. Faculty Early Career Development(CAREER)program proposals are strongly encouraged. Award duration is five years. The submission deadline for Engineering CAREER proposals is in July every year. Learn more in the CAREER program description . Proposals for Conferences, Workshops, and Supplements: PIs are strongly encouraged to discuss their requests with the program director before submission of the proposal. Grants forRapid Response Research(RAPID)andEArly-concept Grants for Exploratory Research(EAGER)are also considered when appropriate.Please note that proposals of these types must be discussed with the program director before submission.Grant Opportunities for Academic Liaison with Industry (GOALI)proposals that integrate fundamental research with translational results and are consistent with the application areas of interest to each program are also encouraged. Please note that RAPID, EAGER, and GOALI proposals can be submitted anytime during the year. Details about RAPID, EAGER, and GOALI are available in the Proposal & Award Policies & Procedures Guide(PAPPG), Part 1, Chapter II, Section E: Types of Proposals . Compliance: Proposals that are not compliant with the Proposal & Award Policies & Procedures Guide (PAPPG) will be returned without review.
GrantUSResearchThermal Transport Processes
→TheThermal Transport Processesprogram is part of the Transport Phenomena cluster, which alsoincludes1) theCombustion and Fire Systemsprogram; 2) theFluid Dynamicsprogram; and 3) theParticulate and Multiphase Processesprogram. TheThermal Transport Processesprogram supports engineering research projects that lay the foundation for newadvances in thermal transport phenomena. These projects should either develop new fundamental knowledge or combine existing knowledge in thermodynamics, fluid mechanics, and heat and mass transfer to probe new areas of innovation in thermal transport processes. The program seeks transformative projects with the potential for improvingbasic understanding, predictability and application of thermal transport processes. Projects should articulate the contribution(s) to the fundamental knowledge supporting thermal transport processes and state clearly the potential application(s) impact when appropriate.Projects that combine analytical, experimental and numerical efforts, geared toward understanding, modeling and predicting thermal phenomena, are of great interest.Collaborative and interdisciplinary proposals for which the main contribution is in thermal transport fundamentals are also encouraged. Emphasis is placed on research that demonstrates how thermal transport phenomena affect the existence, behavior and dynamics of components and systems.Priority is given to insightful investigations of fundamental problems with clearly defined economic, environmental and societal impacts. Some specific areas of interest include: Convection/diffusion/radiation: Heat and mass transport incomplex structures and surfaces;thermal-related turbulence; development of form-functionrelationships in thermal processes; thermal design methodology; phonon transport and interactions between energy carriers; radiationamplification, controlling, and extinction; interfacial gas-solid andliquid-solid thermal and species-driven phenomena. Thermodynamics: Thermal-electric energy conversion; battery-related thermal issues; power generation and propulsion; phase-change and supercritical energy cycles;non-equilibriumthermal processes. Biologicalheatand mass transport: Biomimicry;intra- andextra-cellular heat and mass transport; freeze resistancemechanisms;thermotherapy and thermoregulation; organ conservation(freezing and thawing); mass transport in biomedical and health systems. Nanothermics,microthermics,and mesothermics: Scaling upnanoscale heat transport processes or coupledheat-mass transport processes; utilization ofnew multi-functional, meta- and graded-materials in thermal transport;nano-texturingand phase-change; multi-scale thermal transport in aprocess. Thermal solutions to climate change: Decarbonizing industrial processes; novel heating and cooling technologies with minimal greenhouse gas emissions; thermal-driven clean energy concepts; thermal and thermochemical energy storage; waste heat recovery and transmission; thermal science and technology to enable electrification of energy services. Thermal science and quantum technology interface: Quantum sensors for thermal measurements;quantum computing for thermal sciences;thermodynamics and novel cryogenic cooling concepts for quantum devices;thermal transport in quantum materials and quantum phenomena; thermal solutions for next-generation qubits, qubit coupling, and quantum information storage. New metrology and artificial intelligence (AI)/machinelearning methodologies in thermal sciences: Advanced thermal imagingand measurement techniques for high-resolutionin situthermal imaging and non-invasive temperature measurement; novel AI/machine learning methodologies and other data-intensive approaches that can be coupled with physics-based models and/or experiments to enable new understanding and discoveries in thermal transport processes. NOTE: Proposalsincluding chemical kinetics should be submitted to the ENG/CBETCombustion and FireSystemsprogram. Proposals dealing mainly with materials synthesis, processing and characterization should be directed to the ENG/CMMIAdvanced Manufacturingprogram or the Division of Materials Research (DMR) in the Directorate for Mathematical and Physical Sciences (MPS). Proposals at the interface of computational/mathematical sciences and thermal transport are encouraged but should be submitted to theComputational and Data-Enabled Science & Engineering(CDS&E) program. Proposals seeking the utilization of the International Space Station U.S. National Laboratory should follow the instructions in the NSF/CASIS solicitations (e.g., NSF 22-539). Proposals related to the Air Force Office of Scientific Research (AFOSR) general area of thermal transport properties of novel materials and heterostructures should be submitted as regular proposals to theThermal Transport Processesprogram. Those proposals may be jointly reviewed by NSF and AFOSR using the NSF merit review process. Actual funding format and agency split for an award (depending on availability of funds) will be determined after the proposal selection process. Proposals related to the Department of Energy (DOE) general area of thermal and thermochemical energy storage materials and processes should be submitted as regular proposals to theThermal Transport Processesprogram. In these cases, the PI should contact the program director to confirm suitability of the topic prior to submitting the proposal. Innovative proposals outside of these specific interest areas may be considered.However, prior to submission, it is recommended that the PI contact the program director to avoid the possibility of the proposal being returned without review. Innovative proposals outside of these specific interest areas may be considered.However, prior to submission, it is recommended that the Principal Investigator contact the program director to avoid the possibility of the proposal being returned without review. INFORMATION COMMON TO MOST CBET PROGRAMS Proposals should address the novelty and/or potentially transformative nature of the proposed work compared to previous work in the field.Also, it is important to address why the proposed work is important in terms of engineering science, as well as to also project the potential impact on society and/or industry of success in the research.The novelty or potentially transformative nature of the research should be included, as a minimum, in the Project Summary of each proposal. The duration of unsolicited proposal awards in CBET is generally up to three years. Single-investigator award budgets typically include support for one graduate student (or equivalent) and up to one month of PI time per year(awards for multiple investigator projects are typically larger). Proposal budgets that are much larger than typical should be discussed with the program director prior to submission. Proposers can view budget amounts and other information from recent awards made by this program via the "What Has Been Funded (Recent Awards Made Through This Program, with Abstracts)" link towards the bottom of this page. Faculty Early Career Development(CAREER)program proposals are strongly encouraged.Award duration is five years.The submission deadline for Engineering CAREER proposals is in July every year. Learn more in the CAREER program description . Proposals for Conferences, Workshops, and Supplements: PIs are strongly encouraged to discuss their requests with the program director before submission of the proposal. Grants forRapid Response Research(RAPID)andEArly-concept Grants for Exploratory Research(EAGER)are also considered when appropriate.Please note that proposals of these types must be discussed with the program director before submission.Grant Opportunities for Academic Liaison with Industry (GOALI)proposals that integrate fundamental research with translational results and are consistent with the application areas of interest to each program are also encouraged. Please note that RAPID, EAGER, and GOALI proposals can be submitted anytime during the year. Details about RAPID, EAGER, and GOALI are available in the Proposal & Award Policies & Procedures Guide (PAPPG), Part 1, Chapter II, Section E: Types of Proposals. Compliance: Proposals that are not compliant with the Proposal & Award Policies & Procedures Guide (PAPPG) will be returned without review.
GrantUSResearchAdvanced Manufacturing
→The Advanced Manufacturing (AM) program supports the fundamental research needed to revitalize American manufacturing to grow the national prosperity and workforce, and to reshape our strategic industries. The AM program accelerates advances in manufacturing technologies with emphasis on multidisciplinary research that fundamentally alters and transforms manufacturing capabilities, methods and practices. Advanced manufacturing research proposals should address issues related to national prosperity and security, and advancing knowledge to sustain global leadership. Areas of research, for example, include manufacturing systems; materials processing; manufacturing machines; methodologies; and manufacturing across the length scales. Researchers working in the areas of cybermanufacturing systems, manufacturing machines and equipment, materials engineering and processing, and nanomanufacturing are encouraged to transcend and cross domain boundaries. Interdisciplinary, convergent proposals are welcome that bring manufacturing to new application areas, and that incorporate challenges and approaches outside the customary manufacturing portfolio to broaden the impact of America’s advanced manufacturing research. Proposals of all sizes will therefore be considered as justified by the project description. Investigators are encouraged to discuss their ideas with AM program directors well in advance of submission at AdvancedManufacturing@nsf.gov .
GrantUSResearchNanoscale Interactions
→The Nanoscale Interactions program is part of theEnvironmental Engineering and Sustainabilitycluster, which also includes: 1) the Environmental Engineering program; and 2) the Environmental Sustainability program. The goal of theNanoscale Interactionsprogram is to support research toadvance fundamental and quantitative understanding of the interactions of nanomaterials and nanosystems with biological andenvironmental media. Materials of interest include one- to three-dimensional nanostructures, heterogeneous nano-bio hybrid assemblies, dendritic and micelle structures, quantum dots, and other nanoparticles.Such nanomaterials and systems frequently exhibit novel physical, chemical, photonic, electronic, and biological behavior as compared to the bulk scale. Collaborative and interdisciplinary proposals are encouraged. Research areas supported by the program include: Characterizationof interactions at the interfacesof nanomaterials and nanosystems,including both simple nanoparticles andcomplex and/or heterogeneouscomposites and nanosystems, with surrounding biological and environmental media; Developmentof predictive toolsbased on the fundamental behavior ofnanostructures to advancecost-effective and environmentally benignprocessing and engineeringsolutions over full-life material cycles; Examinationof the transport, interaction, and impact of nanostructured materials andnanosystems on biological systems and the environment; Simulationsof nanoparticle behavior at interfaces, in conjunction with experimentalcomparisons, and new theories and simulation approaches for determiningthe transport and transformation of nanoparticles in various media; and Investigations of quantum vibronic and spin phenomena with correlations to nano phenomena. The Nanoscale Interactions program will support exploratory research projects on nanoscale interactions of quantum effects which explain macroscopic changes and physiological and metabolic processes; investigate quantum vibration and electron spin to elucidate nano phenomena and produce quantitative data and evidence of quantum effects. Research in these areas will enable the design of nanostructured materials and heterogeneous nanosystems with desired chemical, electronic, photonic, biological, and mechanical properties for optimal and sustainable handling, manufacture, and utilization. NOTE : Studies that focus on fundamental research concerning atomic- and molecular-scale interfacial phenomena and engineering of interfacial properties, processes, and materials, particularly as relevant towards advancing industrial chemical or biochemical processes, may be more appropriate for theInterfacial Engineeringprogram (CBET 1417). Please consult with program directors prior to submission if you have questions about programmatic fit. Innovative proposals outside of these specific interest areas may be considered. However, prior to submission, it is recommended that the Principal Investigator contact the program director to avoid the possibility of the proposal being returned without review. INFORMATION COMMON TO MOST CBET PROGRAMS Proposals should address the novelty and/or potentially transformative nature of the proposed work compared to previous work in the field. Also, it is important to address why the proposed work is important in terms of engineering science, as well as to also project the potential impact on society and/or industry of success in the research. The novelty or potentially transformative nature of the research should be included, as a minimum, in the Project Summary of each proposal. The duration of unsolicited proposal awards in CBET is generally up to three years. Single-investigator award budgets typically include support for one graduate student (or equivalent) and up to one month of PI time per year(awards for multiple investigator projects are typically larger). Proposal budgets that are much larger than typical should be discussed with the program director prior to submission. Proposers can view budget amounts and other information from recent awards made by this program via the “What Has Been Funded (Recent Awards Made Through This Program, with Abstracts)” link towards the bottom of this page. Faculty Early Career Development(CAREER) program proposals are strongly encouraged. Award duration is five years. The submission deadline for Engineering CAREER proposals is in July every year. Learn more in the CAREER program description . Proposals for Conferences, Workshops, and Supplements : PIs are strongly encouraged to discuss their requests with the program director before submission of the proposal. Grants forRapid Response Research(RAPID) and EArly-concept Grants for Exploratory Research(EAGER) are also considered when appropriate.Please note that proposals of these types must be discussed with the program director before submission. Grant Opportunities for Academic Liaison with Industry (GOALI) proposals that integrate fundamental research with translational results and are consistent with the application areas of interest to each program are also encouraged. Please note that RAPID, EAGER, and GOALI proposals can be submitted anytime during the year. Details about RAPID, EAGER, and GOALI are available in the Proposal & Award Policies & Procedures Guide(PAPPG), Part 1, Chapter II, Section E: Types of Proposals . Compliance : Proposals that are not compliant with the Proposal & Award Policies & Procedures Guide (PAPPG) will be returned without review.
GrantUSResearchParticulate and Multiphase Processes
→TheParticulate and Multiphase Processesprogram is part of the Transport Phenomena cluster, which also includes 1) theCombustion and Fire Systemsprogram; 2) theFluid Dynamicsprogram; and 3) theThermal Transport Processesprogram. Thegoal of theParticulate and Multiphase Processesprogram is to support fundamental research on physico-chemical phenomena that govern particulate and multiphase systems, including flow of suspensions, drops and bubbles, granular and granular-fluid flows, behavior of micro- and nanostructured fluids, unique characteristics of active fluids, and self assembly/directed-assembly processes that involve particulates.The program encourages transformative research to improve our basic understanding of particulate and multiphase processes with emphasis on research that demonstrates how particle-scale phenomena affect the behavior and dynamics of larger-scale systems.Although proposed research should focus on fundamentals, a clear vision is required that anticipates how results could benefit important applications in advanced manufacturing, energy harvesting, transport in biological systems, biotechnology, or environmental sustainability.Collaborative and interdisciplinary proposals are encouraged, especially those that involve a combination of experiment with theory and/or modeling. Major research areas of interest in the program include: Multiphase flow phenomena:Dynamics ofparticle/bubble/droplet systems,behavior of structured fluids (colloids/ferro-fluids), granular flows, rheology of multiphase systems, unique characteristics of active fluids in novel applications, and newl approaches that relate micro- and nanoscale phenomena to macroscale properties and process-levelvariables. Particlescience and technology:Aerosols, production of particles andpolymer-particle complexes with engineered properties, self-assembly,directed assembly, and template-directed assembly of particles into functional materials and devices. Multiphase transport in biological systems:Analysis of physiological processes, applications of functionalized nanostructures in clinical diagnostics andtherapeutics. Interfacial transport:Dynamics of particles and macromolecules at interfaces, kinetics of adsorption and desorption of nanoparticles and surfactants and their spatial distributions at interfaces, complex molecular interactions at interfaces, formation of interfacial complexes that affect the dynamics of particles. NOTE: Proposals that explore fluid-structure interactions involving electrodes in engineering applications such as energy storage should be directed to ENG/CBETElectrochemical Systemsprogram.Proposals that involve drops or bubbles bouncing off solid surfaces should be directed toward ENG/CBETFluid Dynamicsprogram. Proposals that deal with engineered surfaces forcarrying out chemical or biochemical reactions or separations should be directed to ENG/CBETInterfacial Engineeringprogram.Proposals dealing mainly with particle synthesis may be more suitable forthe ENG/CMMIAdvanced Manufacturingprogram or the Division of Materials Research (DMR) in the Mathematical and Physical Sciences (MPS) Directorate. Innovative proposals outside of these specific interest areas may be considered; however, prior to submission, it is recommended that the PI contact the program director to avoid the possibility of the proposal being returned without review. INFORMATION COMMON TO MOST CBET PROGRAMS Proposals should address the novelty and/or potentially transformative nature of the proposed work compared to previous work in the field.Also, it is important to address why the proposed work is important in terms of engineering science, as well as to also project the potential impact on society and/or industry of success in the research.The novelty or potentially transformative nature of the research should be included, as a minimum, in the Project Summary of each proposal. The duration of unsolicited proposal awards in CBET is generally up to three years. Single-investigator award budgets typically include support for one graduate student (or equivalent) and up to one month of PI time per year(awards for multiple investigator projects are typically larger). Proposal budgets that are much larger than typical should be discussed with the program director prior to submission. Proposers can view budget amounts and other information from recent awards made by this program via the "What Has Been Funded (Recent Awards Made Through This Program, with Abstracts)" link towards the bottom of this page. Faculty Early Career Development(CAREER)program proposals are strongly encouraged.Award duration is five years.The submission deadline for Engineering CAREER proposals is in July every year. Learn more in the CAREER program description . Proposals for Conferences, Workshops, and Supplements: PIs are strongly encouraged to discuss their requests with the program director before submission of the proposal. Grants forRapid Response Research(RAPID)andEArly-concept Grants for Exploratory Research(EAGER)are also considered when appropriate.Please note that proposals of these types must be discussed with the program director before submission.Grant Opportunities for Academic Liaison with Industry (GOALI)proposals that integrate fundamental research with translational results and are consistent with the application areas of interest to each program are also encouraged. Please note that RAPID, EAGER, and GOALI proposals can be submitted anytime during the year. Details about RAPID, EAGER, and GOALI are available in the Proposal & Award Policies & Procedures Guide (PAPPG), Part 1, Chapter II, Section E: Types of Proposals. Compliance: Proposalsthat are not compliant with the Proposal & Award Policies & Procedures Guide (PAPPG) will be returned without review.
GrantUSResearchEnergy, Power, Control, and Networks
→The Energy, Power, Control, andNetworks (EPCN) Program supports innovative research in modeling, optimization, learning, adaptation, and control of networked multi-agent systems, higher-level decision making, and dynamic resource allocation, as well as risk management in the presence of uncertainty, sub-system failures, and stochastic disturbances. EPCN also invests in novel machine learning algorithms and analysis, adaptive dynamic programming, brain-like networked architectures performing real-time learning, and neuromorphic engineering. EPCN’s goal is to encourage research on emerging technologies and applications including energy, transportation, robotics, and biomedical devices & systems. EPCN also emphasizes electric power systems, including generation, transmission, storage, and integration of renewable energy sources into the grid; power electronics and drives; battery management systems; hybrid and electric vehicles; and understanding of the interplay of power systems with associated regulatory & economic structures and with consumer behavior. Areas managed by Program Directors (please contact Program Directors listed in the EPCN staff directory for areas of interest): Control Systems Distributed Control and Optimization Networked Multi-Agent Systems Stochastic, Hybrid, Nonlinear Systems Dynamic Data-Enabled Learning, Decision and Control Cyber-Physical Control Systems Applications (Biomedical, Transportation, Robotics) Energy and Power Systems Solar, Wind, and Storage Devices Integration with the Grid Monitoring, Protection and Resilient Operation of Grid Power Grid Cybersecurity Market design, Consumer Behavior, Regulatory Policy Microgrids Energy Efficient Buildings and Communities Power Electronics Systems Advanced Power Electronics and Electric Machines Electric and Hybrid Electric Vehicles Energy Harvesting, Storage Devices and Systems Innovative Grid-tied Power Electronic Converters Learning and Adaptive Systems Neural Networks Neuromorphic Engineering Systems Data analytics and Intelligent Systems Machine Learning Algorithms, Analysis and Applications
GrantUSResearchElectrochemical Systems
→TheElectrochemical Systemsprogram is part of the Chemical Process Systems cluster, which also includes: 1) theCatalysisprogram; 2) theInterfacial Engineeringprogram; and 3) theProcess Systems, Reaction Engineering, and Molecular Thermodynamicsprogram. The goal of theElectrochemical Systemsprogram is to support fundamental engineering science research that will enable innovative processes involving electrochemistry or photochemistry for the sustainable production of electricity, fuels, chemicals, and other specialty and commodity products. Processes utilizing electrochemistry or photochemistry for sustainable energy and chemical production must be scalable, environmentally benign, reduce greenhouse gas production, and utilize renewable resources. Research projects that stress fundamental understanding of phenomena that directly impact key barriers to improved system or component-level performance (for example, energy efficiency, product yield, process intensification) are encouraged. Processes for energy storage should address fundamental research barriers for renewable electricity storage applications, for transport propulsion, or for other applications that could have impact towards climate change mitigation. For projects concerning energy storage materials, proposals should involve testable hypotheses that involve device or component performance characteristics that are tied to fundamental understanding of transport, kinetics, or thermodynamics. Advanced chemistries beyond lithium-ion are encouraged. Proposed research on processes utilizing electrochemistry or photochemistry should be inspired by the need for economic and impactful conversion processes. All proposal project descriptions should address how the proposed work, if successful, will improve process realization and economic feasibility and compare the proposed work against current state of the art. Highly integrated multidisciplinary projects are encouraged. When appropriate, collaborations with industrial technologists are encouraged through GOALI proposals. Collaborative projects with an integrated experimental and theoretical approach are also encouraged. Topics of interest include electrochemical energy storage and electrochemical production/conversion systems. Radically new battery systems can move the U.S. more rapidly toward a more sustainable transportation future and to greater renewable electricity production penetration. High-energy density and high-power density batteries suitable for transportation and renewable energy storage applications are of primary interest. Advanced systems involving metal anodes, solid-state electrolytes, nonaqueous systemsbeyond lithium, aqueous systems beyond lithium,and multivalent chemistries are encouraged. Research activities focused on commercially available systems such as lead-acid and nickel-metal hydride batteries or lithium-ion batteries for medical or consumer electronics applications will not be considered by this program. Novel electrochemical and photochemical systems and processes for the production of chemicals and high-value products are encouraged. Emphasis is placed on those systems that improve process intensification and process modularization with accompanying benefits in energy efficiency and environmental footprint. Additional fundamental science topics of interest to this program include the study of: advanced fuel cell systems or fuel cell components for transportation propulsion or grid energy storage applications; flow batteries for stationary energy storage applications including alternative redox chemistries (e.g., organic, inorganic, organometallic, macromolecular) and operating strategies (e.g., redox-mediation, suspensions); and photocatalytic or photoelectrochemical processes and devices for the splitting of water into hydrogen gas or for the reduction of carbon dioxide to liquid or gaseous fuels. Projects that largely focus on developing fundamental understanding of the catalytic reaction mechanisms and structure-function relationships may be more appropriate as submissions to the CBET Catalysis program (CBET 1401). Projects submitted to the Electrochemical Systems program are expected to develop fundamental, molecular-level understanding of the key chemical reaction and transport phenomena barriers to improved system-level performance. Innovative proposals outside of these specific interest areas may be considered. However, prior to submission, it is recommended that the Principal Investigator contact the program director to avoid the possibility of the proposal being returned without review. Referrals to other programs within NSF: Proposals that focus on electric-field driven separations such as dielectrophoresis should be directed to theInterfacial Engineeringprogram (CBET 1417). Proposals that focus on thermal management of energy storage devices and systems should be submitted to theThermal Transport Processesprogram (CBET 1406). Proposals that focus on improving device and system performance of primarily organic, inorganic, and hybrid photovoltaic (PV) technologies, including perovskites, may be more appropriate as submissions to the Electronics, Photonics, and Magnetic Devices program in Engineering's Division of Electrical, Communications, and Cyber Systems (ECCS 1517). PV materials proposals that focus on the material science may be considered in the Division of Materials Research of the Directorate for Mathematical and Physical Sciences. Proposals that focus on the generation of thermal energy by solar radiation should be directed to theThermal Transport Processesprogram (CBET 1406). INFORMATION COMMON TO MOST CBET PROGRAMS Proposals should address the novelty and/or potentially transformative nature of the proposed work compared to previous work in the field. Also, it is important to address why the proposed work is important in terms of engineering science, as well as to also project the potential impact on society and/or industry of success in the research. The novelty or potentially transformative nature of the research should be included, as a minimum, in the Project Summary of each proposal. The duration of unsolicited proposal awards in CBET is generally up to three years. Single-investigator award budgets typically include support for one graduate student (or equivalent) and up to one month of principal investigator time per year(awards for multiple investigator projects are typically larger). Proposal budgets that are much larger than typical should be discussed with the Program Director prior to submission. Proposers can view budget amounts and other information from recent awards made by this program via the “What Has Been Funded (Recent Awards Made Through This Program, with Abstracts)” link towards the bottom of this page. Faculty Early Career Development(CAREER)program proposals are strongly encouraged. Award duration is five years.The submission deadline for Engineering CAREER proposals is in July every year. Learn more in the CAREER program description . Proposals for Conferences, Workshops, and Supplements: PIs are strongly encouraged to discuss their requests with the Program Director before submission of the proposal. Grants forRapid Response Research(RAPID)andEArly-concept Grants for Exploratory Research(EAGER)are also considered when appropriate. Please note that proposals of these types must be discussed with the program director before submission.Grant Opportunities for Academic Liaison with Industry (GOALI)proposals that integrate fundamental research with translational results and are consistent with the application areas of interest to each program are also encouraged. Please note that RAPID, EAGER, and GOALI proposals can be submitted anytime during the year. Details about RAPID, EAGER, and GOALI are available in theProposal & Award Policies & Procedures Guide(PAPPG), Part 1, Chapter II, Section E: Types of Proposals. COMPLIANCE: Proposals which are not compliant with the Proposal & Award Policies & Procedures Guide (PAPPG) will be returned without review.
GrantUSResearchPioneering Aerospace Capabilities, Engineering and Research (PACER)
→Pioneering Aerospace Capabilities, Engineering and Research (PACER)
GrantCloses 2043-05-10USResearchBiosensing
→The Biosensing program is part of the Engineering Biology and Health cluster, which also includes 1) the Biophotonics program; 2) the Cellular and Biochemical Engineering program; 3) the Disability and Rehabilitation Engineering program; and 4) the Engineering of Biomedical Systems program. The Biosensing program supports fundamental engineering research in the monitoring, identification and/or quantification of biological analytes and phenomena using innovations that exist at the intersection of engineering, life sciences, and information technology. Projects submitted to the program must advance both engineering and life sciences. The Biosensing program encourages proposals that, in addition to advancing biosensing technology, address critical sensor needs in biomedical research, public health, food safety, agriculture, forensics, environmental protection, and homeland security. Proposals are especially encouraged in areas of critical need: sensing technologies that can enable monitoring and surveillance of the environment and/or individuals for novel infectious agents; platform technologies that can readily be modified as soon as new agents are detected, sequenced, and/or otherwise characterized to enable rapid deployment of sensors in clinics and the environment; and adaptive and/or multiplex sensing technologies that can help the nation prevent the spread of the next global pandemic. Major areas of interest for the program include: Novel signal transduction principles and mechanisms that enable sensitive and specific biosensors, suitable for measurements in multiple areas; Design of novel biorecognition elements and appropriately designed transducing systems to enable adaptable and/or reconfigurable operating parameters in response to environmental changes or application needs at levels of device, system, or data analysis; Development of adaptive and/or evolvable biosensing systems for detection of novel target analytes or analytes under novel conditions; Novel synthetic biology approaches for the development of cell-free and cell-based biosensors; and Combining biosensors with artificial intelligence (AI) methods to improve sensor specificity and response time. Innovative ideas outside of the above specific interest areas may be considered. However, prior to submission, it is recommended that the PI contact the program director to avoid the possibility of the proposal being returned without review. The Biosensors program does not encourage proposals addressing circuit design for signal processing and amplification, computational modeling, and microfluidics for sample separation and filtration. Medical imaging-based measurements are outside of the scope of the program interests. Proposals that rely heavily on descriptive approaches are given lower priority. Proposals for optimizing and/or utilizing established methods for specific applications should be directed to programs focused on the application of sensor technology. NOTE: Projects related to water and/or soil quality may be jointly supported with the Environmental Engineering program (CBET 1440). Photonic devices with medical imaging and/or optogenetics should be submitted to the Biophotonics program (CBET 7236). Applications of devices for tissue engineering or organ-on-chip systems should be submitted to the Engineering of Biomedical Systems program (CBET 5345). Basic chemical/biochemical sensing mechanisms should be submitted to the Chemical Measurement and Imaging program (CMI 6880) in the Division of Chemistry. Proposals for dynamic biosensing systems, including circuit design for signal/data processing and amplification, and sensing systems through communication and machine learning should be submitted to the Communications, Circuits, and Sensing-Systems program (CCSS 7564) in the Division of Electrical, Communications, and Cyber Systems. INFORMATION COMMON TO MOST CBET PROGRAMS Proposals should address the novelty and/or potentially transformative nature of the proposed work compared to previous work in the field.Also, it is important to address why the proposed work is important in terms of engineering science, as well as to also project the potential impact on society and/or industry of success in the research.The novelty or potentially transformative nature of the research should be included, as a minimum, in the Project Summary of each proposal. The duration of unsolicited proposal awards in CBET is generally up to three years. Single-investigator award budgets typically include support for one graduate student (or equivalent) and up to one month of PI time per year(awards for multiple investigator projects are typically larger). Proposal budgets that are much larger than typical should be discussed with the program director prior to submission. Proposers can view budget amounts and other information from recent awards made by this program via the ?What Has Been Funded (Recent Awards Made Through This Program, with Abstracts)? link towards the bottom of this page. Faculty Early Career Development(CAREER)program proposals are strongly encouraged.Award duration is five years.The submission deadline for Engineering CAREER proposals is in July every year. Learn more in the CAREER program description . Proposals for Conferences, Workshops, and Supplements: PIs are strongly encouraged to discuss their requests with the program director before submission of the proposal. Grants forRapid Response Research(RAPID)andEArly-concept Grants for Exploratory Research(EAGER)are also considered when appropriate. Please note that proposals of these types must be discussed with the program director before submission. Grant Opportunities for Academic Liaison with Industry (GOALI)proposals that integrate fundamental research with translational results and are consistent with the application areas of interest to each program are also encouraged. Please note that RAPID, EAGER, and GOALI proposals can be submitted anytime during the year. Details about RAPID, EAGER, and GOALI are available in the Proposal & Award Policies & Procedures Guide(PAPPG), Part 1, Chapter II, Section E: Types of Proposals. Compliance: Proposals that are not compliant with the Proposal & Award Policies & Procedures Guide (PAPPG) will be returned without review.
GrantUSResearchCHEERS Open Period 1 - All Technical Areas
→The Air Force Research Laboratory, Human Effectiveness Directorate (RH) and the United States Air Force School of Aerospace Medicine (USAFSAM), is soliciting white papers (and potentially later technical and cost proposals) on the research located in the Statements of Objectives attached to the Continuing Human Enabling, Enhancing, Restoring and Sustaining (CHEERS) Multiple Authority Announcement (MAA) Opportunity FA2384-24-S-2233. List of Attachments: 1. "Open Period Solicitation 1_BAA Amend 01" 2. "Attachment 1 - List of Provisions and Clauses (BAA)" Related Notice: Multiple Authority Announcement (MAA) FA238424S2233, "Continuing Human Enabling, Enhancing, Restoring and Sustaining (CHEERS)" Note: You MUST refer to the related notice identified above in order to obtain all additional attachments referenced herein (e.g. CHEERS Industry Guide, Statements of Objectives (SOO), and S&T Protection Appendices)
GrantCloses 2027-09-30USResearchManufacturing Systems Integration
→The Manufacturing Systems Integration (MSI) Program supports fundamental research addressing the opportunities and challenges that digital technologies present for the next industrial revolution, with particular emphasis on the digital integration of design and manufacturing within the larger life cycle ecosystem. Manufacturing Systems Integration proposals should address underlying principles and advances that are generalizable for globally competitive and world leading industries. Connectivity, automation, and secure collaboration are examples of areas that are integral to digital environments capable of supporting the innovation, realization and sustainment of manufactured products and systems in the value creation process. Fundamental generalizable research for manufacturing systems integration might include, for example: Digital representation, protocols, and/or processes for integration and collaboration in manufacturing systems (machines and/or humans) Intelligent self-organizing production systems Ease of use, interoperability and seamless integration of technologies, machines, and humans Service-oriented architectures and systems Data sets that are compatible and usable across platforms Reliable and secure communications within and across the manufacturing value chain Integration of distributed manufacturing systems across time and space, including incorporating both legacy and leading-edge equipment and technologies Methods for assessing the impact and value of externalities throughout the life cycle within the digital environment Interdisciplinary, convergent proposals that bring diverse perspectives, populations, disciplines, and capabilities together are welcome. It is strongly encouraged and expected that investigators discuss their ideas with a MSI program director well in advance of proposal submission.
GrantUSResearchEnvironmental Engineering
→The Environmental Engineering program is part of the Environmental Engineering and Sustainability cluster, which also includes 1) the Nanoscale Interactions program; and 2) the Environmental Sustainability program. Environmental engineering is an interdisciplinary field that applies chemical, biological, and physical scientific principles to protect human and ecological health. The goal of the Environmental Engineering program is tosupport potentially transformative fundamental research that applies scientific and engineering principles to 1) prevent, minimize, or re-use solid, liquid, and gaseous discharges of pollution to soil, water, and air by closing resource loops or through other measures; 2) mitigate the ecological and human-health impacts of such releases by smart/adaptive/reactive amendments or manipulation of the environment, and 3) remediate polluted environments through engineered chemical, biological, and/or geo-physical processes. Integral to achieving these goals is a fundamental understanding of the transport and biogeochemical reactivity of pollutants in the environment. Therefore, research on environmental micro/biology, environmental chemistry, and environmental geophysics may be relevant providing the research has a clear objective of protecting human and ecological health. Major areas of interest include (but are not limited to): Building afuture without pollution or waste: Investigation of innovative biogeochemical processes that prevent or minimize the production of waste; waste valorization and other research that will lead to new technologies toextract resources from waste streams to close the resource loop. Sustainable supply and protection ofwater: Investigation of innovative biogeochemical processesthat remove, biologically or chemically transform, and/or prevent therelease of contaminants in surface and groundwater; innovative processesfor recovery of water, nutrients, and other resources from wastewater,saline water, or brines; innovative approaches to smart and adaptive management of surface water, groundwater, and urban watersheds and storm water to maintain/improve quality and prevent downstream impacts from nutrients and other water constituents. Environmentalchemistry, fate, and transport of nutrients and contaminants of emergingconcern in air, water, soils, and sediments:Investigation of transport and biogeochemical reactivity in theenvironment; environmental forensics to identify sources and reaction pathways; field- and laboratory scale experimental research that bridgesgaps between data and predictions from molecular, continuum, and field-scale modeling. Environmentalengineering of the built environment: Research to understand the biogeochemical reactivity of the builtenvironment with the goal of enhancing and improving human and ecological health; research that will lead to new technologies to improve outdoor and indoor air quality; research to understand how drinking water and wastewater chemical characteristics and microbial community structure impact or are affected by water quality and human health. NOTE: Proposals with a scientific focus on chemical or physical separation processes (for example, materials or processes for reverse osmosis, membrane distillation, and hypo-filtration) should be submitted to the Interfacial Engineering program (CBET 1417). Proposals that seek to advance fundamental and quantitative understanding of the behaviors of nanomaterials and nanosystems should be submitted to the Nanoscale Interactions program (CBET 1179). Proposals focused on in vitro molecular-level environmental chemistry research should be submitted to Environmental Chemical Sciences program (CHE-ECS 6882). Proposals focusing on industrial ecology, green engineering, and ecological/earth systems engineering should be submitted to the Environmental Sustainability program (CBET 7643). Proposals whose main research focus is on materials development, sensors, or environmental monitoring that do not seek to understand biogeochemical reactivity mechanisms or treatment efficiency are not encouraged and may be returned without review. Innovative proposals outside of these specific interest areas may be considered. However, prior to submission, it is recommended that the PI contact the program director to avoid the possibility of the proposal being returned without review. INFORMATION COMMON TO MOST CBET PROGRAMS Proposals should address the novelty and/or potentially transformative nature of the proposed work compared to previous work in the field. Also, it is important to address why the proposed work is important in terms of engineering science, as well as to also project the potential impact on society and/or industry of success in the research. The novelty or potentially transformative nature of the research should be included, as a minimum, in the Project Summary of each proposal. The duration of unsolicited proposal awards in CBET is generally up to three years. Single-investigator award budgets typically include support for one graduate student (or equivalent) and up to one month of PI time per year(awards for multiple investigator projects are typically larger). Proposal budgets that are much larger than typical should be discussed with the program director prior to submission. Proposers can view budget amounts and other information from recent awards made by this program via the “What Has Been Funded (Recent Awards Made Through This Program, with Abstracts)” link towards the bottom of this page. Faculty Early Career Development(CAREER)program proposals are strongly encouraged. Award duration is five years. The submission deadline for Engineering CAREER proposals is in July every year. Learn more in the CAREER program description . Proposals for Conferences, Workshops, and Supplements: PIs are strongly encouraged to discuss their requests with the program director before submission of the proposal. Grants forRapid Response Research(RAPID)andEArly-concept Grants for Exploratory Research(EAGER)are also considered when appropriate.Please note that proposals of these types must be discussed with the program director before submission.Grant Opportunities for Academic Liaison with Industry (GOALI)proposals that integrate fundamental research with translational results and are consistent with the application areas of interest to each program are also encouraged.Please note that RAPID, EAGER, and GOALI proposals can be submitted anytime during the year. Details about RAPID, EAGER, and GOALI are available in the Proposal & Award Policies & Procedures Guide(PAPPG), Part 1, Chapter II, Section E: Types of Proposals . Compliance: Proposals that are not compliant with the Proposal & Award Policies & Procedures Guide (PAPPG) will be returned without review.
GrantUSResearchOperations Engineering
→The Operations Engineering (OE) program supports fundamental research on advanced analytical methods for improving operations in complex decision-driven environments. Analytical methods include, but are not limited to, deterministic and stochastic modeling, optimization, decision and risk analysis, data science, and simulation. Methodological research is highly encouraged but must be motivated by problems that have potential for high impact in engineering applications. Application domains of particular interest to the program arise in commercial enterprises (e.g., production/manufacturing systems and distribution of goods, delivery of services), the public sector/government (e.g., public safety and security), and public/private partnerships (e.g., health care, environment and energy). The program also welcomes operations research in new and emerging domains and addressing systemic societal or technological problems. The OE program particularly values cross-disciplinary proposals that leverage application-specific expertise with strong quantitative analysis in a decision-making context. Proposals for methodological research that are not strongly motivated by high-potential engineering applications are not appropriate for this program. PIs are encouraged to send any program inquiries to both Program Directors.
GrantUSResearchMind, Machine and Motor Nexus
→The Mind, Machine, and Motor Nexus (M3X) program supports fundamental research that enables intelligent engineered systems and humans to engage in bidirectional interaction in a physics-based environment, to enhance and ensure safety, productivity, and well-being. For the purpose of this program an intelligent engineered system is a human-designed system — physical, virtual, or a combination of both — that interacts with its environment to achieve specific goals. These systems collect data, analyze it to make informed decisions, and take actions that enhance safety, efficiency, and well-being. They may operate autonomously or collaboratively with humans, adapting their actions based on the data they collect. A key requirement for the M3X program is that these systems must function within a physics-based environment, whether physical or virtual, where interactions exhibit recognizable physical behaviors, such as those associated with gravity, friction, force, and inertia. Intelligent engineered systems are becoming increasingly integrated into our daily lives, interacting with humans across diverse environments and through different modalities (for example, visual, haptic, auditory). M3X aims to deepen the understanding of such interactions, particularly in complex and dynamic settings such as elder care, disaster response, and dynamic workplaces. The program encourages explorations into the physical or cognitive principles that enable or constrain human-machine collaboration, advancing foundational theories, interaction modeling, and technological innovations that enhance adaptability, efficiency, and intuitiveness. Proposals submitted to the M3X program must clearly articulate how the proposed work advances knowledge of bidirectional interactions between humans and intelligent engineered systems. Examples include robots assisting in disaster response, smart environments that learn user preferences, and virtual reality-based rehabilitation technologies that simulate plausible physics. While proposals are not required to address all aspects of the interaction, they must propose significant contributions to at least one of the following areas: Conceptual Frameworks and Theoretical Modeling Development of new conceptual, mathematical, or computational frameworks that provide structured approaches to understanding and analyzing the bidirectional interaction between humans and engineered systems. These frameworks serve as formalized models or methodologies that guide research in areas such as cognition, perception, and behavior of both humans and intelligent engineered systems during their interactions. Additionally, these computational frameworks facilitate the modeling of safe operating conditions in dynamic task environments and the identification of theoretical limits of cognitive and physical performance capabilities during interaction. Dynamic Interaction Analysis and Simulation Investigation of emerging and established bidirectional interaction phenomena in physical, virtual, or hybrid environments. Potential topics may include learning, co-adaptation, cooperation, competition, and multi-scale interaction. The program also welcomes novel experimental paradigms to evaluate processes and performance. Innovative Technologies for Enhanced Interaction Development of methods, tools, and technologies to enable novel or improved forms of bidirectional interaction, guided by hypotheses and interaction-driven requirements. Potential topics may include creating meaningful task environments (physical, virtual, or hybrid); designing new modalities and interfaces for interaction; developing advanced evaluation, measurement, and instrumentation methods; testbeds, and improving real-time integration of multi-modal sensorimotor data. The M3X program strongly encourages proposals that aim to establish new perspectives and paradigms across one or more of the three areas listed above . To ensure strong alignment with M3X objectives, Principal Investigators are encouraged to submit a one-page Project Summary to M3X@nsf.gov for feedback from Program Directors.
GrantUSResearchEngineering for Civil Infrastructure
→The Engineering for Civil Infrastructure (ECI) program supports fundamental research in geotechnical, structural, materials, architectural, and coastal engineering. The ECI program promotes research that can shape the future of the nation’s physical civil infrastructure and that can contribute to climate change adaptation and mitigation, and hazards and disaster resilience. Types of civil infrastructure that the ECI program considers include, but are not limited to, buildings, residential construction, earth and earth retaining structures, and components of flood protection systems; water, waste disposal, and wastewater systems; energy infrastructure (excluding nuclear); and transportation systems (excluding pavements). Both disciplinary and convergent research that can address the challenges of physical civil infrastructure to be resilient and sustainable over its service lifetime are of particular interest. Broader impacts of ECI research include fostering community welfare for an equitable and prosperous nation and promoting environmentally friendly, circular economy policies. The ECI program supports research that advances knowledge on the behavior of physical civil infrastructure subjected to and interacting with the natural environment during construction; under service and long-term conditions, including increased demands due to climate change adaptation and other emerging stressors; and under conditions caused by single or multiple extreme hazard events (extreme weather, windstorms, earthquakes, tsunamis, storm surges, landslides, and fire, including wildland-urban interface fire). The ECI program also supports research on geomaterials and infrastructure materials utilized in load-bearing systems as well as in non-structural systems. Of particular interest is experimental and analytical/computational research to advance the fundamental understanding of coupled multi-physics, multi-scale (spatial and temporal), multi-functional behavior of these materials and their intended use in civil infrastructure. The ECI program supports research on civil infrastructure that contributes to the National Science Foundation’s role in the National Earthquake Hazards Reduction Program (NEHRP) and the National Windstorm Impact Reduction Program (NWIRP). Principal Investigators are encouraged to leverage NSF’s investments in the Natural Hazards Engineering Research Infrastructure (NHERI) experimental, computational modeling and simulation, and data resources ( https://www.designsafe-ci.org/ ) in their research to accelerate advances needed for reducing the impacts of natural hazards on civil infrastructure. The NHERI Science Plan ( https://www.designsafe-ci.org/facilities/nco/science-plan/ ) offers a range of research topics that could benefit from the use of NHERI resources and are relevant to the ECI program. The ECI program does not support research that addresses natural resource exploration or recovery, investigates blasts and explosions, develops sensor and measurement technologies, or focuses on hazard characterization. The ECI program only supports fundamental research topics for civil infrastructure with a strong grounding in theory. Topics which fall within the mission for research and/or development of other federal and state agencies are appropriate for the ECI program only when addressing fundamental scientific questions. Research on natural hazard characterization is supported through programs in the NSF Directorate for Geosciences. Proposers are actively encouraged to email a one-page project summary to the ECI Program Officers before submitting a full proposal for guidance on whether the proposed research topic falls within the scope of the ECI program; this guidance especially should be requested for multi-disciplinary research proposals, proposals for which research and/or development on the subject civil infrastructure(s) are also supported by other federal and state agencies, and proposals that consider civil infrastructure not listed above.
GrantUSResearchMechanics of Materials and Structures
→The Mechanics of Materials and Structures program supports fundamental research in mechanics as related to the behavior of deformable solid materials and structures under internal and external actions. The program supports a diverse spectrum of research with emphasis on transformative advances in experimental, theoretical, and computational methods. Submitted proposals should clearly emphasize the contributions to the field of mechanics. Proposals related to material response are welcome, including, but not limited to, advances in fundamental understanding of deformation, fracture, and fatigue as well as contact and friction. Proposals that relate to structural response are also welcome, including, but not limited to, advances in the understanding of nonlinear deformation, instability and collapse, and wave propagation. Proposals addressing mechanics at the intersection of materials and structures, such as, but not limited to, meta-materials, hierarchical, micro-architectured and low-dimensional materials are also encouraged. Proposals that explore and build upon advanced computing techniques and tools to enable major advances in mechanics are particularly welcome. For example, proposals incorporating reduced-order modeling, data-driven techniques, and/or stochastic methods with a strong emphasis on validation are encouraged. Also welcome are proposals addressing data analytics for deformation or damage response deduction from large experimental and computational data sets. Similarly, proposals that explore new experimental techniques to capture deformation and failure information for extreme ranges of loading or material behavior are also encouraged. Finally, experimental and computational methods that address information across multiple length and time scales, potentially involving multiphysics considerations are also welcome. Proposals with a focus on buildings and civil infrastructure system are welcome in CMMI and should be submitted to the program on Structural and Architectural Engineering Materials (SAEM). Proposals addressing processing and mechanical performance enhancements should be submitted to the Materials Engineering and Processing (MEP) program. Investigators with proposals focused on design methodological approaches and theory enabling the accelerated development and insertion of materials should consider the Design of Engineering Material Systems (DEMS) program. Lastly, investigators with interest in developing a combined theoretical and experimental approach to accelerate materials discovery and development should direct their proposals to the Designing Materials to Revolutionize and Engineer Our Future (DMREF) opportunity. Proposers are actively encouraged to email a one-page project summary to MOMS@nsf.gov before full proposal submission to determine if the research topic falls within the scope of the MOMS program.
GrantUSResearchCombustion and Fire Systems
→TheCombustion and Fire Systemsprogram is part of the Transport Phenomena cluster, which also includes 1) theFluid Dynamicsprogram; 2) theParticulate and Multiphase Processesprogram; and 3) theThermal Transport Processesprogram. The goal of theCombustion and Fire Systemsprogram is to create new knowledge to support advances in clean energy, climate change mitigation, a cleaner environment and public safety. The program endeavors to createfundamental scientific knowledge that is needed for safe, clean and useful combustion applications and for mitigating the effects of fire.The program aims to identify and understand the controlling basic principles and to use that knowledge to create predictive capabilities for designing and optimizing practical combustion devices and understanding fire. Important outcomesfor this program include: broad-based tools — experimental, theoretical, andcomputational — that can be applied to a variety of problems in combustion technologies and fire; science and technology for clean and efficient generation of power; discoveries that enable clean environments (for example, by reduction in combustion-generated pollutants); and enhanced public safety and climate change mitigation through research on wildland and building fire growth, inhibition, and suppression. Research areas of interest for this program include: Basic combustion science: Combustion of gas, liquid, and solid fuels over abroad range of temperatures, pressures, and compositions; combustion at supercritical conditions; advanced propulsion concepts; flame synthesis ofmaterials; integration of fuel design and combustion; control of reaction pathways; development of chemical kinetics models, analytical and numerical predictive methods, and advanced diagnostic tools. Combustionscience related to clean energy: Increasing efficiency and reducing pollution; production and use of renewable and/or carbon-free fuels; biomass pyrolysis, gasification, and oxidation; technologies such as oxy-fuel combustion and chemical looping combustion for carbon capture. Fireprevention: Improved understanding of building and wildland fires to prevent their spread, inhibit their growth, and suppress them; prediction and mitigation of fires in the wildland-urban interface. Turbulence-chemistry interactions:Fundamental understanding of turbulent flow interactions with finite-rate chemical kinetic pathways at high Reynolds and Karlovitz number conditions, including but not limited to: (1) fundamental experiments to generate physico-chemical data to reduce theuncertainty of combustion chemistry and turbulent combustion models; (2)spatially/temporally well-resolved, multi-scale/multi-physics computations;novel approaches of developing embedded multi-scale direct numericalsimulation (DNS) of complex geometries and data-assimilations forincorporating measured data from the state-of-art in situ diagnostic approaches; (3) other innovative approaches on development and validation of predictive computational methods. NOTE: This is an NSF-AFOSR (Air Force Office of Scientific Research) joint funding area. Proposals will be jointly reviewed by NSF and AFOSR using the NSF merit reviewprocess.Actual funding format and agency split for an award(depending on availabilityof funds) will be determined after the proposal selection process. The AFOSR program that participates in this initiative is the program on Energy, Combustion, and Nonequilibrium Thermodynamics. Innovative proposals outside of these specific interest areas may be considered.However, prior to submission, it is recommended that the Principal Investigator contact the program director to avoid the possibility of the proposal being returned without review. INFORMATION COMMON TO MOST CBET PROGRAMS Proposals should address the novelty and/or potentially transformative nature of the proposed work compared to previous work in the field.Also, it is important to address why the proposed work is important in terms of engineering science, as well as to also project the potential impact on society and/or industry of success in the research.The novelty or potentially transformative nature of the research should be included, as a minimum, in the Project Summary of each proposal. The duration of unsolicited proposal awards in CBET is generally up to three years. Single-investigator award budgets typically include support for one graduate student (or equivalent) and up to one month of PI time per year(awards for multiple investigator projects are typically larger). Proposal budgets that are much larger than typical should be discussed with the program director prior to submission. Proposers can view budget amounts and other information from recent awards made by this program via the “What Has Been Funded (Recent Awards Made Through This Program, with Abstracts)” link towards the bottom of this page. Faculty Early Career Development(CAREER)program proposals are strongly encouraged.Award duration is five years.The submission deadline for Engineering CAREER proposals is in July every year. Learn more in the CAREER program description . Proposals for Conferences, Workshops, and Supplements: PIs are strongly encouraged to discuss their requests with the program director before submission of the proposal. Grants forRapid Response Research(RAPID)andEArly-concept Grants for Exploratory Research(EAGER)are also considered when appropriate.Please note that proposals of these types must be discussed with the program director before submission.Grant Opportunities for Academic Liaison with Industry (GOALI)proposals that integrate fundamental research with translational results and are consistent with the application areas of interest to each program are also encouraged. Please note that RAPID, EAGER, and GOALI proposals can be submitted anytime during the year. Details about RAPID, EAGER, and GOALI are available in the Proposal & Award Policies & Procedures Guide (PAPPG), Part 1, Chapter II, Section E: Types of Proposals. Compliance: Proposals that are not compliant with the Proposal & Award Policies & Procedures Guide (PAPPG) will be returned without review.
GrantUSResearchGeospace Cluster
→The Geospace Cluster (GC) in the Division of Atmospheric and Geospace Sciences (AGS) supports fundamental and solutions-oriented research, technology development and education related to the Earth's near-space environment (including the mesosphere, thermosphere, ionosphere, exosphere, magnetosphere and radiation belts) and the inner heliosphere and solar atmosphere. The GC advances knowledge of the Sun--Earth system, including how various parts of the system are coupled through dynamical, electrodynamical and chemical processes. The GC supports research on the societal impacts of these processes including space weather and upper atmosphere climate change, with the aim of increasing resilience to such natural hazards. The GC supports research that uses ground-based or space-based observational facilities and instruments as well as data centers and a broad range of theoretical, modeling, observational, data analyses and laboratory activities. General research topics that are supported by the GC include, but are not limited to: Aeronomy, including studies of wave dynamics, ionization, recombination, chemical reaction, photo emission and transport of energy and momentum within and between the mesosphere, thermosphere and ionosphere of the Earth; how this global system is coupled to the stratosphere below and magnetosphere above; and the plasma physics of phenomena manifested in the coupled ionosphere-magnetosphere system. Magnetospheric physics, including studies of the magnetosphere, or the cavity carved out of the solar wind by the Earth's magnetic field, its energization by the solar wind and population by solar and ionospheric sources; waves and instabilities in such natural plasmas; the origin of planetary electric fields; the origin of geomagnetic storms and substorms; and the coupling among the radiation belts, magnetosphere, ionosphere and atmosphere. Solar-terrestrial physics, including how energy generation and eruptive processes occur in the solar atmosphere and how energy and momentum are transported within the Sun-Earth system; solar dynamo, solar activity cycle and magnetic flux emergence; eruptive activity including solar flares and coronal mass ejections; solar wind heating, solar energetic particles and interactions with cosmic rays; solar wind/magnetosphere boundary; and helioseismology. Space weather and space climate, including solar or terrestrial drivers of space weather; observations and modeling of the integrative geospace system that could lead to better predictive capabilities of the time-varying space environment; and characterization of space weather impacts on critical infrastructure and technological systems. Proposals to the GC are welcome at any time. However, the following solicitations in support of specific geospace science and community efforts have target dates or deadlines. They also may have PI and/or Institution restrictions. Please refer to the solicitation documents for further details: The Coupling, Energetics, and Dynamics of Atmospheric Regions (CEDAR) targeted research program aims to understand the behavior of the Earth's atmospheric regions from the middle atmosphere upward through the thermosphere and ionosphere into the exosphere in terms of coupling, energetics, chemistry and dynamics on regional and global scales. The Geospace Environment Modeling (GEM) targeted research program supports investigations of the physics of the Earth's magnetosphere and the coupling of the magnetosphere to the atmosphere and solar wind, including for making accurate predictions of the geospace environment. The Solar, Heliospheric, and Interplanetary Environment (SHINE) targeted research program supports enhanced understanding of and predictive capabilities for the processes by which energy in the form of magnetic fields and particles are produced by the Sun and/or accelerated in interplanetary space and on the mechanisms by which these fields and particles are transported to the Earth through the inner heliosphere. The Faculty Development in geoSpace Science (FDSS) solicitation integrates topics in geospace science, including solar and space physics and space weather research, into natural sciences, engineering or related departments at U.S. institutions of higher education. The solicitation also stimulates the development of undergraduate or graduate programs or curricula to train the next generation of leaders in geospace science. The Geospace Cluster participates in other AGS, GEO and NSF programs and solicitations including but not limited to: Distributed Array of Small Instruments (DASI) ECosystem for Leading Innovation in Plasma Science and Engineering (ECLIPSE) AGS encourages and inspires scientific leaders by investing in the atmospheric and geospace sciences, enhancing educational opportunities and experiences and supporting faculty and researchers at all career stages. The Division expects that proposers will integrate education, outreach and dissemination activities into their research plans in compliance with NSF Broader Impacts Merit Review criteria. AGS invites proposals that include plans for workforce development, educational and outreach activities, open science initiatives and efforts to broaden participation and encourage diverse talent in the atmosphere and geospace sciences. Furthermore, AGS encourages proposals from all institutions, including Minority Serving Institutions, Emerging Research Institutions and institutions in EPSCoR jurisdictions. The Proposal & Award Policies & Procedures Guide (PAPPG) provides the instructions for submitting proposals to AGS. Additionally, Chapter II.F of the PAPPG defines "Other Types of Proposals," including community-building proposals such as Conference, Travel or Planning Proposals and special categories of proposals, such as Rapid Response Research (RAPID) and EArly-concept Grants for Exploratory Research (EAGER). Proposals that are not compliant with the PAPPG will be returned without review. The following sections highlight specific NSF-, GEO-, or AGS-wide solicitations that may be relevant to the AGS Community. Please be aware that solicitations are frequently updated, so make sure that you are looking at the most recent version. Career Development AGS Postdoctoral Research Fellowship (AGS-PRF) : The AGS-PRF program supports researchers (also known as Fellows) for up to 24 months at the institution of their choice. The program is intended to recognize beginning investigators of significant potential and provide them with research experience that will broaden perspectives, facilitate interdisciplinary interactions, and establish them in leadership positions within the AGS community. Faculty Early Career Development Program (CAREER) : The CAREER program supports early career (assistant professor-level) faculty who have the potential to serve as academic role models in research and education and to lead advances for their department or organization. Awards are 5 years long and must integrate research and education. Mid-Career Advancement (MCA) : The MCA program provides opportunities for scientists and engineers at the associate professor rank (or equivalent) to substantively enhance and advance their research program through synergistic partnerships. Capacity Development EMpowering BRoader Academic Capacity and Education (EMBRACE) : The EMBRACE program supports research and educational efforts at "non-R1" institutions, including non-R1 minority serving institutions (MSIs), two-year colleges (2YCs), primarily undergraduate institutions (PUIs), and emerging research (ERIs) and master's level institutions. Historically Black Colleges and Universities Excellence in Research (HBCU - EiR) : The HBCU-EiR program supports research at public and private historically Black colleges and universities to strengthen research capacity and promote engagement with NSF. Facilitating Research at Primarily Undergraduate Institutions (RUI and ROA): RUI awards support PUI faculty in research that engages them in their professional field(s), build capacity for research at their home institution, and support the integration of research and undergraduate education. ROA awards similarly support PUI faculty research, but these awards typically allow faculty to work as visiting scientists at research-intensive organizations where they collaborate with other NSF-supported investigators. Instrumentation and Facilities Major Research Instrumentation : The MRI program supports requests for up to $4 million from NSF for the development or acquisition of multi-user research instruments that are critical to the advancement of science and engineering. Mid-scale Research Infrastructure-1 : The MSRI-1 program supports the design and implementation of research infrastructure--including equipment, cyberinfrastructure, large-scale datasets and personnel--whose total project costs exceed the NSF Major Research Instrumentation program limit but are under $20 million. Mid-scale Research Infrastructure-2 : The MSRI-2 program supports the implementation of research infrastructure--including equipment, cyberinfrastructure, large-scale datasets and personnel--whose total project costs fall between $20 million and $100 million.
GrantUSResearchMultilateral Partnerships Leveraging Excellence
→Many of the most pressing challenges in research and innovation require collaboration across national and disciplinary boundaries to achieve important advances. A growing number of topics are best addressed on a multilateral basis, building partnerships that leverage diverse expertise, data, infrastructure, and perspectives to advance understanding on critical topics of regional or global importance. At the same time, funders, research organizations, and researchers alike typically have limited experience with multilateral partnerships. The Office of International Science and Engineering’s MultiPLEx program seeks to support visionary, and ambitious international multilateral research partnerships that are required to hasten progress in addressing grand challenges by leveraging research excellence in the U.S. and around the globe. The program also seeks to advance understanding of effective multilateral collaboration. MultiPLEx welcomes proposals that Address urgent research and/or societal challenge of global importance (including but not limited to critical and emerging technology research) and require an inherently international multilateral approach to achieve impactful research results, partnering with at least two countries other than the U.S. Proposals that engage partners across distinct geographic regions are an area of interest. Make clear how the proposed international collaboration will enable research advances and broader impacts that go beyond what can be accomplished by a narrower team. Include a diverse group of U.S. institutions and/or individuals, leveraging the full range of talent that society has to offer MultiPLEx funds support the U.S. research team. Research partners should seek funding from their own national funding agencies or from other sources. A typical MultiPLEx award will be up to three years in duration. The MultiPLEX program is not intended to replace existing OISE or directorate programs. Proposals submitted to MultiPLEX must fall outside the scope of existing OISE or directorate programs. Any proposal submitted to MultiPLEx that is not responsive to this Program Description may be transferred to another OISE program or returned without review. OISE may periodically issue a Dear Colleague Letter inviting MultiPLEx proposals in specific priority areas. PIs interested in submitting proposals that do not respond to a DCL are strongly encouraged to consult a MultiPLEx program director prior to submission to confirm appropriateness. Unless specified in a DCL, MultiPLEx proposals may be submitted any time.
GrantUSResearchComputational and Data-Enabled Science and Engineering
→Large-scale simulations and the ability to accumulate massive amounts of data have revolutionized science and engineering. The goal of the Computational and Data-enabled Science and Engineering (CDS&E) meta-program is to identify and capitalize on opportunities for major scientific and engineering breakthroughs through new computational and data-analysis approaches and best practices. The CDS&E meta-program supports projects that harness computation and data to advance knowledge and accelerate discovery above and beyond the goals of the participating individual programs. The intellectual drivers may be in an individual discipline or cut across more than one discipline in various Divisions and Directorates. A CDS&E proposal should enable and/or utilize the development and adaptation of advances in research and infrastructure in computational and data science. The CDS&E meta-program encourages research that pushes the envelope of science and engineering through computation and data, welcoming proposals in any research area supported by the participating divisions. A proposal may address topics that develop or enable interactions among theory, computing, experiment, and observation to achieve progress on hitherto intractable science and engineering problems. Areas of emphasis for CDS&E vary by program. PIs are advised to consult the "related programs" links below before submitting. The CDS&E meta-program is not intended to replace existing programs that support projects involving computation or the analysis of large or complex data sets using established methods. Rather, proposals submitted to the CDS&E meta-program must have a significant component of computational or data science that goes well beyond what would typically be included in these programs.Any proposal submitted to the CDS&E program that is not responsive to this Program Description may be transferred to or reviewed within the context of an individual program. A proposal requesting consideration within the context of CDS&E should begin the title with the identifying acronym "CDS&E:". Supplement requests to existing awards may also be considered. A CDS&E proposal should include substantive science, engineering, or computing research. Algorithm and pilot software development supporting science and engineering may also be appropriate, depending on the program. Proposers who seek to implement proven, existing methods into robust cyberinfrastructure are referred instead to the program on Cyberinfrastructure for Sustained Scientific Innovation (CSSI). A CDS&E proposal should be submitted to one of the "Related Programs" or Divisions by the associated submission window, deadline, or target date listed in the table below. In picking the most relevant program, PIs are advised to read program descriptions and solicitations carefully and consult with cognizant Program Officers before proposal preparation. Proposal submissions outside the receiving program's scientific scope may be transferred to a different program or returned without review. Due Dates Directorate Division and Program Submission Window or Target Date ENG Division of Chemical, Bioengineering, Environmental, and Transport Systems September 01, 2024 - September 16, 2024 September 01- September 15, Annually Thereafter ENG Division of Civil, Mechanical and Manufacturing Innovation September 01, 2024 - September 16, 2024 September 01- September 15, Annually Thereafter MPS Division of Chemistry - Chemical Catalysis (CAT), Chemical Mechanism, Function, and Properties (CMFP), Chemical Synthesis (SYN) September 01, 2024 - September 30, 2024 September 01 - September 30, Annually Thereafter MPS Division of Materials Research October 15, 2024 October 15, Annually Thereafter MPS Division of Astronomical Sciences - Advanced Technologies and Instrumentation October 01, 2024 - November 15, 2024 October 01 - November 15, Annually Thereafter MPS Division of Chemistry - Chemical Measurement and Imaging (CMI), Environmental Chemical Sciences (ECS), and Macromolecular, Supramolecular and Nanochemistry (MSN) October 01, 2024 - October 31, 2024 October 1 - October 31, Annually Thereafter MPS Division of Mathematical Sciences October 15, 2024 - October 31, 2024 October 15 - October 31, Annually Thereafter MPS Division of Astronomical Sciences - Astronomy and Astrophysics Research Grants October 01, 2024 - November 15, 2024 October 01 - November 15, Annually Thereafter MPS Division of Physics: Investigator-Initiated Research Projects – Plasma Physics program November 20, 2024, Third Monday in November, Annually Thereafter MPS Division of Chemistry - Chemistry of Life Processes (CLP), Chemical Structure and Dynamics (CSD), Chemical Theory, Models and Computational Methods (CTMC) Full proposals accepted anytime
GrantUSResearchCrosscutting Activities in Materials Research
→Crosscutting Activities in Materials Research (XC) coordinates and supports crosscutting activities within the Division of Materials Research (DMR) and more broadly across NSF. The emphasis within XC is diversity and inclusion, international cooperation, and education (including experiential learning at REU/RET Sites). Additionally, activities that broadly engage the community, such as summer schools, institutes, workshops, and conferences that do not fit within just one or two programs in the Division of Materials Research, may be supported by XC.If preparing a workshop proposal, follow the Special Guidelines for Conference Proposals outlined in the Proposal & Award Policies & Procedures Guide (PAPPG). Occasionally projects crossing several programs in DMR are shifted to XC or co-funded by XC. The goal is to bring greater visibility to these projects through DMR’s XC website. Proposals are welcome that do not fit elsewhere at NSF that are also highly relevant for the materials research and education community. Some XC activities are co-funded with other NSF units. XC does not handle traditional research proposals suitable for submission to topical or other programs in DMR. For this reason, the XC Team welcomes inquiries that include a draft of one-page NSF summary, or a shorter write-up. It is highly recommended that you contact one of the Program Directors for XC prior to submission of a full proposal exceeding $50,000. Crosscutting Activities in Materials Research (XC) replaced the Office of Special Programs in Materials Research (OSP) in 2016. Diversity: Activitiesthat focus on broadening participation of underrepresented groups and/or diversity and inclusion are supported. Supplements(e.g., CLB, AGEP-GRS, MPS-GRSV and ROAs) are handled by the cognizantProgram Director of the original award. See the Related Publications section below for more information. XC supports Facilitation Awards for Scientists and Engineers with Disabilities (see Proposal & Award Policies & Procedures Guide, Chapter II.E.6 for details) https://www.nsf.gov/pubs/policydocs/pappg18_1/pappg_2.jsp#IIE6 International: In2016 a Dear Colleague Letter outlining collaborative projectswith Israel (BSF) was issued; it remains active until archived. Submissionof full proposals with an international component may be made to thedisciplinary programs (but not to XC directly). Supplementsare handled by the cognizant Program Director of the original award. Discontinuedin 2014: The previous International Materials Institutes (IMI)and Materials World Network (MWN) programs are no longer supported . Education: Innovativeand creative ideas in education (e.g., materials science and/or engineering, solid state and materials chemistry, condensed matterphysics, integrated computational materials science/engineering, ormaterials data science/analytics) that do not have a forum elsewhere at NSFare of interest. XC encourages outreach and/or materials education proposals targeting underserved populations such as K-12students in rural communities and those designed to increase public scientific literacy. Research Experiences for Undergraduates (REU)/ Research Experiences for Teachers (RET): reu.dmr@nsf.gov XCcoordinates the REU and RET Sites activities within DMR. See the REU Site Solicitation for deadlines and additional program information. REU/RET supplements to research proposals are handled by the cognizant ProgramDirector of the original award.
GrantUSResearchInfrastructure Systems and People
→Infrastructure systems comprise complex connections between physical components, organizational structures and operational methods that support the needs of people and communities at the local, regional, national, and global scales. Such systems form the backbone of society, providing essential services as well as ensuring public health and welfare, economic prosperity and national security, and are expected to function under all operational conditions. Meanwhile, infrastructure systems are capital intensive and vulnerable to disruptions from extreme events, including natural disasters, social crises, and malicious attacks. Disruptions in one system can have cascading impacts on others in space and over time. Moreover, short- versus long-term trade-offs, unintended consequences, and maladaptation are not often accounted for. How systems function at the “extreme,” which can be due to disruptors from the introduction of innovation, the convergence of technologies, sudden changes to their utilization and access, dramatic changes in operating environments, and changes to demand during crises are of particular interest. To ensure the efficiency, sustainability, resilience, and fair use of infrastructure systems, it is important to continuously improve and optimize their design, operations, system monitoring and performance assessment in dynamic, uncertain and sometime unknown environments. While functioning at extremes is of interest, the program also supports infrastructure systems research under the full range of operating conditions, across a variety of hazards, and in urban, suburban, and rural communities. The program particularly encourages interdisciplinary and multidisciplinary exploration that will open new research frontiers and significantly expand and transform relevant research communities. The program welcomes research that addresses novel system integration, user-inspired system and service design, data analytics, and socio-technical studies focused on engineering and system innovation during normal and extreme conditions. The program also values innovative research efforts focused on collecting, standardizing, and sharing large-scale databases of real-world infrastructure systems and people-infrastructure interactions during normal and extreme operating conditions, which can be instrumental in providing benchmarks for model verification and validation and for advancing future research innovation in ISP. The ISP program supports research on lifeline systems and communities that contributes to the National Science Foundation’s role in the National Earthquake Hazards Reduction Program (NEHRP) and the National Windstorm Impact Reduction Program (NWIRP). Principal Investigators are encouraged to leverage NSF’s investments in the Natural Hazards Engineering Research Infrastructure (NHERI) experimental, computational modeling and simulation, and data resources (https://www.designsafe-ci.org/) in their research to accelerate advances needed for reducing the impacts of natural hazards on infrastructures and people. While physics-based subject-matter knowledge may be crucial in many research efforts, the program does not support research whose primary methodological contribution focuses on individual infrastructure components without a systems research perspective whose primary methodological focus is on geotechnical and structural engineering, material sciences, architectural engineering, wireless communication and sensor technology, human factors, and/or hydrologic or environmental engineering. Proposers are actively encouraged to email a one-page project summary to the ISP Program Officers before submitting a full proposal for guidance on whether the proposed research topic falls within the scope of the ISP program; this guidance should especially be requested for multi-disciplinary research proposals, and proposals for which research and/or development on the subject infrastructure(s) are also supported by other federal and/or state agencies.
GrantUSResearchLong Range Broad Agency Announcement (BAA) for NSWC Crane
→This announcement seeks revolutionary research ideas, and technology demonstrators that offer potential for advancement and improvement of NSWC Crane’s primary mission areas. NSWC Crane is a field activity of the Naval Sea Systems Command. NSWC Crane supports a wide range of government agencies in the interest of national security. NSWC Crane may publish BAAs and other solicitations in response to specific needs. This BAA is issued to seek innovative solutions and ideas for topics not covered via other means. It is strongly encouraged that potential proposers review existing NSWC Crane solicitations to avoid duplication of effort and to contact the identified points of contact for each BAA topic to discuss specific details of the needs. The mission of NSWC Crane is to provide research, development, test and evaluation, acquisition engineering, in-service engineering and technical support in its assigned technical capabilities for the United States Navy, Department of Defense components and agencies, and other federal agencies and components engaged in national security. NSWC Crane also works to apply component and system-level product and industrial engineering to surface sensors, strategic systems, special warfare devices and electronic warfare systems, as well as to execute other responsibilities as assigned by the Commander, Naval Surface Warfare Center. The focus of NSWC Crane is “Harnessing the Power of Technology for the Warfighter.” Crane specializes in total lifecycle support in three broad focus areas: Expeditionary Warfare, Strategic Missions, and Electronic Warfare, which support ten assigned technical capabilities (TCs) listed below. 1. Electronic Warfare (EW) 2. Infrared and Pyrotechnic Countermeasures 3. Strategic Systems Hardware 4. Expeditionary Warfare and Systems 5. Advanced Electronics 6. Sensors and Surveillance Systems 7. Hypersonic Weapon Systems 8. Power and Energy Systems 9. Electro-optic and Infrared Technologies 10.Force level EW Mission Analysis, Advanced Concepts and Technologies Within each of the TCs, there are multiple thrust areas, which present considerable opportunities for innovative research and solutions to support national security imperatives. There is intentional overlapping space within the listed TC such that a potential technology or research idea may support multiple TCs. Any proposal should list the principal TC as well as any adjunct TCs that should be considered. Proposals that support multiple TCs are strongly desired but not necessary.
GrantUSResearchProcess Systems, Reaction Engineering, and Molecular Thermodynamics
→TheProcess Systems, Reaction Engineering, and Molecular Thermodynamicsprogram is part of the Chemical Process Systems cluster, which also includes: 1) theCatalysisprogram; 2) theElectrochemical Systemsprogram; and 3) theInterfacial Engineeringprogram. The goal of theProcess Systems, Reaction Engineering, and Molecular Thermodynamicsprogram is to advance fundamental engineering research on the rates and mechanisms of chemical reactions, systems engineering, and molecular thermodynamics as they relate to the design and optimization of chemical reactors and the production of specialized materials that have important impacts on society. The program supports the development of advanced optimization and control algorithms for chemical processes, molecular and multi-scale modeling of complex chemical systems, fundamental studies on molecular thermodynamics, and the integration of these methods and concepts into the design of novel chemical products and manufacturing processes. This program supports sustainable chemical manufacturing research on the development of energy-efficientchemical processes and environmentally-friendly chemical products through concurrent chemical product/process design methods.Sustainability is also enhanced by research that promotes the electrification of the chemical process industries over current thermally-activated processes. Proposals should focus on: Chemical reaction engineering: This area encompasses the interaction of transport phenomena and kinetics in reactive systems and the use of this knowledge in the design of chemical reactors.Research areas include(1) development of novel reactor designs, such as catalytic and membrane reactors, micro-reactors, chemical vapor and atomic layer deposition systems, (2) studies of reactions in supercritical fluids, (3) novel reaction activation techniques such as atmospheric pressure plasmas (which may be submitted under the ECLIPSE meta-program) and microwave radiation, (4) design of multifunctional and intensified systems, such as chemical-factory/lab-on-a-chip concepts, (5) nanoparticle nucleation, growth, and surface functionalization, and (6) biomass conversion to fuels and chemicals.The program also supports new approaches that enable the design of modular chemical manufacturing systems such as distributed hydrogen and ammonia production processes. Process design, optimization, and control: This area encompasses process systems science, including the development of process modeling, design, control and optimization theory and algorithms; process development proposals are not appropriate for this program.High-priority research topics include process intensification, modular process systems, smart manufacturing, large-scale carbon dioxide capture and conversion, computational tools (including those based on quantum computing methods) enabling advanced chemical manufacturing, real-time optimization and control of large-scale chemical systems with quantitative sustainability metrics, machine learning, and optimization of enterprise-wide processes involving planning, scheduling, and real-time control to create resilient supply chains. Reactive polymer processing: Program scope in this area is limited to research that integrates synthesis and processing to engineer specific nanoscale structures and compositions to tune the macroscopic scale properties of polymers, such as their ability to biodegrade or to be recycled. The focus is on reactive processes that address these environmental concerns while producing tailor-made macromolecular materials. Molecular thermodynamics: This area focuses on fundamental research that combines principles of classical thermodynamics, statistical mechanics, and atomistic-scale simulations to improve chemical processing and to facilitate synthesis of novel functional materials such as catalysts, polymers, solvents, and colloids. Topics include fundamental studies on self- and directed-assembly of nanoscale-level patterned polymer films, machine-learning methods to predict structure-property relationships, large-ensemble molecular dynamics simulations, simulation of peptide self-assembly and protein interactions, and behavior of multiphase and reactive systems under nanoscale confinement. The ultimate goal of research supported by this program is to enable the development of more efficient chemical processes, improve environmental sustainability and water quality, and design functional materials with tailored properties. Innovative proposals outside of these specific interest areas may be considered.However, prior to submission, it is recommended that the Principal Investigator contact the program director to avoid the possibility of the proposal being returned without review. Hypothesis-driven research plans are encouraged. INFORMATION COMMON TO MOST CBET PROGRAMS Proposals should address the novelty and/or potentially transformative nature of the proposed work compared to previous work in the field. Also, it is important to address why the proposed work is important in terms of engineering science, as well as to also project the potential impact on society and/or industry of success in the research. The novelty or potentially transformative nature of the research should be included, as a minimum, in the Project Summary of each proposal. The duration of unsolicited proposal awards in CBET is generally up to three years. Single-investigator award budgets typically include support for one graduate student (or equivalent) and up to one month of principal investigator time per year(awards for multiple investigator projects are typically larger). Proposal budgets that are much larger than typical should be discussed with the Program Director prior to submission. Proposers can view budget amounts and other information from recent awards made by this program via the “What Has Been Funded (Recent Awards Made Through This Program, with Abstracts)” link towards the bottom of this page. Faculty Early Career Development(CAREER)program proposals are strongly encouraged. Award duration is five years.The submission deadline for Engineering CAREER proposals is in July every year. Learn more in the CAREER program description . Proposals for Conferences, Workshops, and Supplements: PIs are strongly encouraged to discuss their requests with the Program Director before submission of the proposal. Grants forRapid Response Research(RAPID)andEArly-concept Grants for Exploratory Research(EAGER)are also considered when appropriate. Please note that proposals of these types must be discussed with the program director before submission. Grant Opportunities for Academic Liaison with Industry (GOALI)proposals that integrate fundamental research with translational results and are consistent with the application areas of interest to each program are also encouraged. Please note that RAPID, EAGER, and GOALI proposals can be submitted anytime during the year. Details about RAPID, EAGER, and GOALI are available in theProposal & Award Policies & Procedures Guide(PAPPG), Part 1, Chapter II, Section E: Types of Proposals. COMPLIANCE: Proposals which are not compliant with the Proposal and Award Policies and Procedures Guide (PAPPG) will be returned without review.
GrantUSResearchCellular and Biochemical Engineering
→Synopsis TheCellular and Biochemical Engineering(CBE)program is part of theEngineering Biology and Healthcluster, which also includes: 1) theBiophotonicsprogram; 2) theBiosensingprogram; 3) theDisability and Rehabilitation Engineeringprogram; and 4) theEngineering of Biomedical Systemsprogram. TheCellular and Biochemical Engineeringprogram supports fundamental engineering research that advances understanding of cellular andbiomolecular processes. CBE-funded research may lead to the development of enabling technology for advanced biomanufacturing of therapeutic cells, biochemicals, and biopharmaceuticals, and for otherbiotechnology industrie. The program encourages highly innovative and potentially transformative engineering research leading to novel bioprocessing and biomanufacturing approaches. Fundamental to many CBE research projects is the understanding of how biomolecules, subcellular systems, cells, and cell populations interact, and how those interactions lead to changes in structure, function, and behavior. A quantitative treatment of problems related to biological processes is considered vital to successful research projects in the CBE program. Major areas of interest for the program include: Metabolic engineering and synthetic biology for biomanufacturing, The design of synthetic metabolic components and synthetic cells, Microbiome structure, function, maintenance, and design, Protein and enzyme engineering, and Design of integrated chemoenzymatic systems. The CBE program also encourages proposals that effectively integrate knowledge and practices from different disciplines while incorporating ongoing research into educational activities. All proposals should include a description on the potential impact of proposed research on an associated biomanufacturing process. Proposals whose core innovation involves tissue engineering, organ culture, development of models of healthy or diseased physiology, or design and application of technologies focused on the diagnosis or treatment of disease should be submitted to theEngineering ofBiomedicalSystemsprogram(CBET 5345). Innovative proposals outside of these specific interest areas may be considered. However, prior to submission, it is recommended that the Principal Investigator contact the program director to avoid the possibility of the proposal being returned without review. INFORMATION COMMON TO MOST CBET PROGRAMS Proposals should address the novelty and/or potentially transformative nature of the proposed work compared to previous work in the field. Also, it is important to address why the proposed work is important in terms of engineering science, as well as to also project the potential impact of success in the research on society and/or industry. The novelty or potentially transformative nature of the research should be included, as a minimum, in the Project Summary of each proposal. The duration of unsolicited proposal awards in CBET is generally up to three years. Single-investigator award budgets typically include support for one graduate student (or equivalent) and up to one month of principal investigator time per year(awards for multiple investigator projects are typically larger). Proposal budgets that are much larger than typical should be discussed with the Program Director prior to submission. Proposers can view budget amounts and other information from recent awards made by this program via the “What Has Been Funded (Recent Awards Made Through This Program, with Abstracts)” link towards the bottom of this page. Faculty Early Career Development(CAREER) program proposals are strongly encouraged. Award duration is five years. The submission deadline for Engineering CAREER proposals is in July every year. Learn more in the CAREER program description . Proposals for Conferences, Workshops, and Supplements : Principal Investigators are strongly encouraged to discuss their requests with the Program Director before submission of the proposal. Grants forRapid Response Research(RAPID) and EArly-concept Grants for Exploratory Research(EAGER) are also considered when appropriate. Please note that proposals of these types must be discussed with the program director before submission. Grant Opportunities for Academic Liaison with Industry (GOALI) proposals that integrate fundamental research with translational results and are consistent with the application areas of interest to each program are also encouraged. Please note that RAPID, EAGER, and GOALI proposals can be submitted anytime during the year. Details about RAPID, EAGER, and GOALI are available in the Proposal & Award Policies & Procedures Guide(PAPPG), Part 1, Chapter II, Section E: Types of Proposals. Compliance : Proposals that are not compliant with the Proposal & Award Policies & Procedures Guide (PAPPG) will be returned without review.
GrantUSResearchDisability and Rehabilitation Engineering
→The Disability and Rehabilitation Engineering program is part of the Engineering Biology and Health cluster, which also includes: 1) the Biophotonics program; 2) the Biosensing program; 3) the Cellular and Biochemical Engineering program; and 4) the Engineering of Biomedical Systems program. The Disability and Rehabilitation Engineering program supports fundamental engineering research that will improve the quality of life of persons with disabilities through the development of new theories, methodologies, technologies, or devices. Disabilities could be developmental, cognitive, hearing, mobility, visual, selfcare, independent living, or other. Proposed projects must advance knowledge regarding a specific human disability or pathological motion or understanding of injury mechanisms. Research may be supported that is directed toward the characterization, restoration, rehabilitation, and/or substitution of human functional ability or cognition, or to the interaction between persons with disabilities and their environment. Areas of particular interest are neuroengineering, rehabilitation robotics, brain-inspired assistive or rehabilitative systems, theoretical or computational methods, and novel models of functional recovery including the development and application of artificial physiological systems. Emphasis is placed on significant advancement of fundamental engineering knowledge that facilitates transformative outcomes. The DARE Program encourages high-risk/high-reward proposals that surpass incremental technological improvements. The DARE Program also encourages participatory design and the inclusion of trainees with disabilities as part of the proposed research or broader impacts. Innovative proposals outside of the above specific interest areas may be considered. However, prior to submission, it is recommended that the PI contact the Program Director to avoid the possibility of the proposal being returned without review. NSF does not support clinical trials; however, feasibility studies involving human volunteers may be supported if appropriate to the project objectives. The development and application of artificial physiological systems that do not model functional recovery and instead improve fundamental understanding of physiological and pathophysiological processes would be appropriate for EBMS. Furthermore, the DARE program does not support proposals having as their central theme commercialization of a product. Small businesses seeking early stage R&D funding for product development are encouraged to contact the NSF SBIR/STTR program in the America's Seed Fund within the Directorate for Technology, Innovation and Partnerships (TIP). INFORMATION COMMON TO MOST CBET PROGRAMS Proposals should address the novelty and/or potentially transformative nature of the proposed work compared to previous work in the field. Also, it is important to address why the proposed work is important in terms of engineering science, as well as to also project the potential impact of success in the research on society and/or industry. The novelty or potentially transformative nature of the research should be included, as a minimum, in the Project Summary of each proposal. The duration of unsolicited proposal awards in CBET is generally up to three years. Single-investigator award budgets typically include support for one graduate student (or equivalent) and up to one month of principal investigator time per year (awards for multiple investigator projects are typically larger). Proposal budgets that are much larger than typical should be discussed with the Program Director prior to submission. Proposers can view budget amounts and other information from recent awards made by this program via the "What Has Been Funded (Recent Awards Made Through This Program, with Abstracts)" link towards the bottom of this page. Faculty Early Career Development (CAREER) program proposals are strongly encouraged. Award duration is five years. The submission deadline for Engineering CAREER proposals is in July every year. Learn more in the CAREER program description . Proposals for Conferences, Workshops, and Supplements: PIs are strongly encouraged to discuss their requests with the program director before submission of the proposal. Grants for Facilitation Awards For Scientists And Engineers With Disabilities (FASED), EArly-concept Grants for Exploratory Research (EAGER), and Rapid Response Research (RAPID) are also considered when appropriate. Please note that proposals of these types must be discussed with the program director before submission. Grant Opportunities for Academic Liaison with Industry (GOALI) proposals that integrate fundamental research with translational results and are consistent with the application areas of interest to each program are also encouraged. Please note that FASED, EAGER, RAPID, and GOALI proposals can be submitted anytime during the year. Details about FASED, EAGER, RAPID, and GOALI are available in the Proposal & Award Policies & Procedures Guide (PAPPG), Part 1, Chapter II, Section E: Types of Proposals. Compliance: Proposals that are not compliant with the Proposal & Award Policies & Procedures Guide (PAPPG) will be returned without review.
GrantUSResearchEngineering of Biomedical Systems
→TheEngineering of Biomedical Systemsprogram is part of the Engineering Biology and Health cluster, which also includes: 1) theBiophotonicsprogram; 2) theBiosensingprogram; 3) theCellular and Biochemical Engineeringprogram; and 4) theDisability and Rehabilitation Engineeringprogram. The goal of theEngineering of Biomedical Systems(EBMS) program is to provide opportunities for fundamental and transformative research projects that integrate engineering and life sciences to solve biomedical problems and serve humanity in the long term. Projects are expected to use an engineering framework (for example, design or modeling) that supports increased understanding of physiological or pathophysiological processes. Projects must include objectives that advance both engineering and biomedical sciences. Projects may include: methods, models, and enabling tools applied to understand or control living systems; fundamental improvements in deriving information from cells, tissues, organs, and organ systems; or new approaches to the design of systems that include both living and non-living components for eventual medical use in the long term. TheEBMS programsupports fundamental and transformative research in the following areas of biomedical engineering: Developmentof validated models (living or computational) of healthy and pathological tissues and organ systems that can support improved fundamental understanding of these systems or that could be applied in the future for development and testing of medical interventions; Designand validation of systems that integrate living and non-living componentsfor improved understanding of physiology that could be applied in the future for diagnosis, monitoring, and treatment ofdisease or injury; Design and subsequent application of technologies andtools toinvestigate fundamental physiological and pathophysiological processes; Advancedbiomanufacturing of three-dimensional tissues and organs; and Application of engineering tools and principles, including mathematical modeling, to quantitatively study the immune system in health and disease and to develop techniques for controlling and modulating a host’s immune response to challenges such as infectious diseases, cancer, implants, autoimmune disorders, wounds, etc. The long-term impact of the projects can be related to effective disease diagnosis and/or treatment, or improved health care delivery. However, immediate goals should focus on improved fundamental understanding of cell and tissue function in normal or pathological conditions and advancing biomedical engineering. Innovative proposals outside of these specific areas of biomedical engineering may be considered.However, prior to submission, it is strongly recommended that the PIs contact the program director to avoid the possibility of the proposal being returned without review. Related programs also fund biomedical engineering research, and PIs are encouraged to examine these to find the appropriate program for submission. The EBMS program does not support proposals having as their central theme drug design and delivery, the development of biomedical devices that do not include a living biological component, or thedevelopment of animal models of disease.For consideration by the EBMS program, proposals that advance the design of tools or technologies should also apply those technologies to advance knowledge in biomedical science. NSF does not support clinical trials; however, feasibility studies involving human volunteers may be supported if appropriate to the project objectives. Projects with a central focus on design or optimization of a device, material, algorithm, or process alone without exploring new fundamental biomedical science are not appropriate for the EBMS program. Furthermore, although research on biomaterials, cellular biomechanics, manufacturing systems, or algorithm/device design may constitute a part of the proposed studies, such research can be more appropriately targeted to other NSF programs: Projects that aim to improve protein engineering or cellular biomanufacturing - either manufacturing cells or cell-derived products - should consider the Cellular and Biochemical Engineering (CBE) program. Projects that focus on the development and application of microphysiological systems that model functional recovery related to a specific human disability or injury mechanism should consider the Disability and Rehabilitation Engineering (DARE) program. Biomaterials-focused projects should consider the Biomaterials (BMAT) program in the Division of Materials Research (DMR). Cellular and tissue biomechanics projects should consider the Biomechanics and Mechanobiology (BMMB) program in the Division of Civil, Mechanical, and Manufacturing Innovation (CMMI). Manufacturing systems proposals should consider the Advanced Manufacturing(AM) program in the Division of Civil, Mechanical, and Manufacturing Innovation (CMMI). Innovative research on signal processing techniques or dynamic biosensing systems should consider the Communications, Circuits, and Sensing-Systems (CCSS) program in the Division of Electrical, Communications and Cyber Systems (ECCS). Innovative research on novel devices based on the principles of electronics, optics and photonics, optoelectronics, magnetics, opto- and electromechanics, electromagnetics, and related physical phenomena, also including material-device interaction, should consider the Electronics, Photonics and Magnetic Devices (EPMD) Program in the Division of Electrical, Communications and Cyber Systems (ECCS). INFORMATION COMMON TO MOST CBET PROGRAMS Proposals should address the novelty and/or potentially transformative nature of the proposed work compared to previous work in the field. Also, it is important to address why the proposed work is important in terms of engineering science, as well as to also project the potential impact of success in the research on society and/or industry. The novelty or potentially transformative nature of the research should be included, as a minimum, in the Project Summary of each proposal. The duration of unsolicited proposal awards in CBET is generally up to three years. Single-investigator award budgets typically include support for one graduate student (or equivalent) and up to one month of PI time per year(awards for multiple investigator projects are typically larger). Proposal budgets that are much larger than typical should be discussed with the program director prior to submission. Proposers can view budget amounts and other information from recent awards made by this program via the “What Has Been Funded (Recent Awards Made Through This Program, with Abstracts)” link towards the bottom of this page. Faculty Early Career Development(CAREER)program proposals are strongly encouraged. Award duration is five years. The submission deadline for Engineering CAREER proposals is in July every year. Learn more in the CAREER program description . Proposals for Conferences, Workshops, and Supplements: PIs are strongly encouraged to discuss their requests with the program director before submission of the proposal. Grants forRapid Response Research(RAPID)andEArly-concept Grants for Exploratory Research(EAGER)are also considered when appropriate. Please note that proposals of these types must be discussed with the program director before submission.Grant Opportunities for Academic Liaison with Industry (GOALI)proposals that integrate fundamental research with translational results and are consistent with the application areas of interest to each program are also encouraged. Please note that RAPID, EAGER, and GOALI proposals can be submitted anytime during the year. Details about RAPID, EAGER, and GOALI are available in the Proposal & Award Policies & Procedures Guide(PAPPG), Part 1, Chapter II, Section E: Types of Proposals. Compliance: Proposals that are not compliant with the Proposal & Award Policies & Procedures Guide (PAPPG) will be returned without review.
GrantUSResearchCatalysis
→The Catalysis program is part of the Chemical Process Systems cluster, which also includes: 1) the Electrochemical Systems program; 2) the Interfacial Engineering program; and 3) the Process Systems, Reaction Engineering, and Molecular Thermodynamics program. The goals of the Catalysis program are to increase fundamental understanding in catalytic engineering science and to advance the development of catalysts and catalytic reactions that are beneficial to society. Research should focus on critical challenges and opportunities in both new and proven catalysis technologies. Areas of emphasis may include novel catalyst compositions, structures, operating environment, data science tools, theory, and modeling – preferably in various combinations as dictated by the specific reaction and related knowledge and technology gaps. Target applications include fuels, specialty and bulk chemicals, environmental catalysis, biomass conversion to fuels and chemicals, greenhouse gas mitigation, recycling of waste materials, generation of solar hydrogen, as well as efficient routes to energy utilization. Heterogeneous catalysis represents the main thrust of the program. Proposals related to both gas-solid and liquid-solid heterogeneous catalysis are welcome, as are proposals that incorporate concepts from homogeneous catalysis. Recent research trends have highlighted the need for evaluation of catalyst performance and properties under working conditions, especially as supported by advanced in situ and in operando characterization methods. Catalyst synthesizability and stability present additional research opportunities given the harsh operating environments of many catalytic processes. Topic areas of particular interest include: Energy-related catalysis, utilizing renewable or sustainable energy in lieu of thermal, fossil fuel-based technologies, especially applications in electrocatalysis, photocatalysis, and catalytic conversion of biomass-derived chemicals, and also including fuel cell catalysis. Catalysis aimed at closing the carbon cycle (especially conversion of carbon dioxide, methane, and natural gas to fuels and chemical intermediates). Heterogeneous catalytic alternatives to traditionally non-catalytic or homogeneous reaction processes, as well as new catalyst designs for established catalytic processes. Environmental catalysis focused on mitigating both air and water pollutants, and supporting energy-efficient upcycling of waste materials to higher-value products. Catalytic remediation of feedstocks, process streams, products, or effluents. Commercially scalable methods of catalyst synthesis, including durable, poison-resistant, and easily regenerable catalyst formulations and designs. New catalytic materials and architectures (especially those substituting earth-abundant materials for precious and noble metal catalysts). Basic understanding of catalytic materials, reaction pathways, kinetics, and surface reaction mechanisms. Advanced tools for catalyst characterization and theoretical/computational catalysis. Proposals that deal with new catalytic materials, especially when viewed in light of the inherent complexity of heterogeneous catalytic reactions, will be enhanced by including plans to assess: 1) reproducibility and repeatability of data, 2) stability under realistic operating conditions including start-up and shut-down cycles, 3) performance relative to standard or well-known reference materials, and 4) quantitative, well-accepted measures of catalyst activity, selectivity, and catalytic efficiency, such as turnover frequencies, quantum and/or photon yields of photocatalysts, Faradaic efficiency of electrocatalytic reactions, and detailed product analyses and mass balances for the targeted application. NOTE: Proposals that focus on 1) molecular or homogeneous catalysis, 2) the surface science of catalysis, 3) photo redox catalysis, 4) catalytic organic synthesis reactions, and/or 5) fine chemical synthesis and pharmaceutical applications of catalysis may be more appropriately submitted to the Chemical Catalysis program.(CHE 6884) in the Division of Chemistry in the Directorate for Mathematical and Physical Sciences. Proposals focused on biocatalytic processes, including proposals focusing on enzyme engineering, cellular and biomolecular processes, should be submitted to the Cellular and Biochemical Engineering program (CBET 1491). If the proposal focuses on reaction engineering aspects of catalytic processes, submit to the Process Systems, Reaction Engineering, and Molecular Thermodynamics program (CBET 1403). Projects that are interdisciplinary in nature may be jointly funded with other CBET and NSF programs. Program directors will review the submissions and may transfer your proposal to give it the best review situation. Innovative proposals outside of these specific interest areas may be considered. However, prior to submission, it is recommended that the Principal Investigator contact the program director to avoid the possibility of the proposal being returned without review. INFORMATION COMMON TO MOST CBET PROGRAMS Proposals should address the novelty and/or potentially transformative nature of the proposed work compared to previous work in the field.Also, it is important to address why the proposed work is important in terms of engineering science, as well as to also project the potential impact on society and/or industry of success in the research.The novelty or potentially transformative nature of the research should be included, as a minimum, in the Project Summary of each proposal. The duration of unsolicited proposal awards in CBET is generally up to three years. Single-investigator award budgets typically include support for one graduate student (or equivalent) and up to one month of principal investigator time per year(awards for multiple investigator projects are typically larger). Proposal budgets that are much larger than typical should be discussed with the program director prior to submission. Proposers can view budget amounts and other information from recent awards made by this program via the ?What Has Been Funded (Recent Awards Made Through This Program, with Abstracts)? link towards the bottom of this page. Faculty Early Career Development(CAREER)program proposals are strongly encouraged. Award duration is five years.The submission deadline for Engineering CAREER proposals is in July every year. Learn more in the CAREER program description . Proposals for Conferences, Workshops, and Supplements: PIs are strongly encouraged to discuss their requests with the rogram director before submission of the proposal. Grants forRapid Response Research(RAPID)andEArly-concept Grants for Exploratory Research(EAGER)are also considered when appropriate. Please note that proposals of these types must be discussed with the program director before submission. Grant Opportunities for Academic Liaison with Industry (GOALI)proposals that integrate fundamental research with translational results and are consistent with the application areas of interest to each program are also encouraged. Please note that RAPID, EAGER, and GOALI proposals can be submitted anytime during the year. Details about RAPID, EAGER, and GOALI are available in theProposal & Award Policies & Procedures Guide(PAPPG), Part 1, Chapter II, Section E: Types of Proposals. COMPLIANCE: Proposals which are not compliant with the Proposal & Award Policies & Procedures Guide (PAPPG) will be returned without review.
GrantUSResearchNational Facilities
→The National Facilities program supports the operation of national user facilities: National Facilities areresearch facilities with specialized instrumentation available to the scientific research community in general and the materials research community in particular.These facilities provide unique research capabilities that can be located at only a few highly specialized laboratories in the Nation. They provide open user service for scientists and engineers from a broad range of disciplines including biology, chemistry, geosciences, materials research. and physics. Theyinclude facilities and resources for research using high magnetic fields, ultraviolet and x-ray synchrotron radiation, neutron scattering, and nanofabrication. Theyserve as science and technology-related resources and experiences for students. Theyconduct student and teacher education, general public awareness activities, curriculum development, and educational research.
GrantUSResearchFoundational Research in Robotics
→The Foundational Research in Robotics (FRR) program, jointly led by the CISE and ENG Directorates, supports research on robotic systems that exhibit significant levels of both computational capability and physical complexity. For the purposes of this program, a robot is defined as intelligence embodied in an engineered construct, with the ability to process information, sense, plan, and move within or substantially alter its working environment. Here intelligence includes a broad class of methods that enable a robot to solve problems or to make contextually appropriate decisions and act upon them. The program welcomes research that considers inextricably interwoven questions of intelligence, computation, and embodiment. Projects may also focus on a distinct aspect of intelligence, computation, or embodiment, as long as the proposed research is clearly justified in the context of a class of robots. The focus of the FRR program is on foundational advances in robotics. Robotics is a deeply interdisciplinary field, and proposals are encouraged across the full range of fundamental engineering and computer science research challenges arising in robotics. To be responsive to the FRR program, each proposal should clearly articulate the following three points: The focus of the research project should be a robot or a class of robots, as defined above. [Is there a robot?] The goal of the project should be to endow a robot or a class of robots with new and useful capabilities or to significantly enhance existing capabilities. [Will a robot gain a new or significantly improved capability?] The intellectual contribution of the proposed work should address fundamental gaps in robotics. [Is robotics essential to the intellectual merit of the proposal?] Meaningful experimental validation on a physical platform is encouraged. Projects that do not represent a direct fundamental contribution to the science of robotics or are better aligned with other existing programs at NSF should not be submitted to the FRR program. Potential investigators are strongly encouraged to discuss their projects with an FRR Program Officer before submission. Non-compliant proposals may be returned without review.
GrantUSResearchDynamics, Control and Systems Diagnostics
→The Dynamics, Control and Systems Diagnostics (DCSD) program supports fundamental theoretical, computational, and experimental research that is knowledge-driven or inspired by applications, focusing on the modeling, analysis, diagnostics and control of the dynamic behavior of systems. Proposals submitted to the DCSD program should articulate how the proposed work advances knowledge in at least one of the following foundational areas: Modeling: mathematical frameworks to understand and predict the behavior of dynamic systems. Analysis: theoretical and computational tools for discovery and exploration of salient properties of dynamic systems. Diagnostics: methods to relate underlying causes to observed behaviors of dynamic systems. Control: methods to produce desired behavior, or mitigate undesired behavior, in dynamic systems. The DCSD program encourages principal investigators (PIs) to request the amount of financial support necessary and sufficient to achieve the scope of the proposed research and to justify this accordingly. PIs are encouraged to send a one-page Project Summary to dcsd@nsf.gov to receive feedback from the Program Directors on whether the project aligns with DCSD program objectives.
GrantUSResearchFacilities for Atmospheric Research and Education
→To facilitate fundamental research in the atmospheric sciences, the Division of Atmospheric and Geospace Sciences (AGS) supports state-of-the-art instruments and facilities through the Facilities for Atmospheric Research and Education (FARE) Program. The FARE Program includes the Lower Atmosphere Observing Facilities (LAOF) and the Community Instruments and Facilities (CIF). Lower Atmospheric Observing Facilities The National Science Foundation (NSF) Division of Atmospheric and Geospace Sciences (AGS)Lower Atmospheric Observing Facilities (LAOF) Program oversees a portfolio of multi-user national facilities that are sponsored by NSF for use by the geosciences research community. Program management resides within AGS in the NCAR and Facilities Section (NFS) which provides a single point for coordination of planning and resources. The LAOF program enables geoscience research through the provision of specialized facilities, instrumentation, and field support services necessary to carry out the scientific field work associated with investigations of a wide range of geophysical phenomena. The program is actively involved in oversight of LAOF facilities and decisions about the acquisition, operation, maintenance, upgrading and replacement of these facilities based on input from the scientific community. LAOF funding supports both the planning for scientific field programs (e.g., experimental design, operational plans, logistical support) and the deployment of NSF-sponsored facilities. Proposals to the LAOF program are acceptedby invitation only. Please contact the FARE program director if you intend to submit a proposal to this program. Community Instrumentation and Facilities (CIF) The CIF program provides the NSF-sponsored atmospheric sciences research community with access to specialized instrumentation for field and laboratory-based studies.The program requests proposals from instrument and facility providers who will make their equipment available for community use through an NSF-defined request process.Support will be provided for limited technician time, minor upgrades, and travel for outreach.
GrantUSResearchInfrastructure Cluster
→AGS Infrastructure Cluster   The Atmospheric and Geospace Sciences (AGS) Infrastructure Cluster (IC) is responsible for the oversight of facilities that enable research in the atmospheric and geospace sciences. The IC primarily oversee s the NSF National Center for Atmospheric Research (NCAR) , but i t also supports community-based instrumentation and facilities , and data storage and provisioning. NSF <span class="NormalTextRun SCXW90113113 BCX8" style="margin: 0px; padding: 0px; user-select: text; -webkit-user-drag: none; -webkit-tap-highlight-color: transparent;" data-ccp-chars
GrantUSResearchEngineering Design and Systems Engineering
→The Engineering Design and Systems Engineering (EDSE) program supports fundamental research that advances design science and/or systems science through the creation of new knowledge about the design of engineered artifacts. Engineered artifacts include, but are not limited to, devices, products, processes, platforms, materials, organizations, systems, and systems of systems. The program focuses on design as a system, in which designers, the artifacts they create, the methods they use to create them, and the environment in which this occurs are all subject to rigorous scientific inquiry, along with the interactions among these elements. The EDSE program strongly encourages proposals that embrace the multidisciplinary nature of design and supports well-defined collaborations of experts in design science and/or systems science with experts in other domains, including (but not limited to) the social, behavioral, computational, and natural (biological and physical) sciences. Competitive proposals will be firmly grounded in theory, will demonstrate the potential of the proposed work to improve design, and will include a plan to rigorously assess the performance and effectiveness of the proposed research methods across all domains involved. In particular, the EDSE program supports fundamental contributions in areas that include but are not limited to design representation; design optimization; design validation; mechanism design; robotics and intelligent system design; design of engineered materials systems; design cognition; design collaboration; data science and artificial intelligence in design; design in under-resourced communities; immersive design; and design at extreme scales and in extreme environments. Prospective investigators are encouraged to discuss their research ideas with the Program Director in advance of proposal preparation and submission.
GrantUSResearchMarine Geology and Geophysics
→The Marine Geology and Geophysics Core Program supports research on all aspects of the geology and geophysics of the present ocean basins and margins, as well as those of the Great Lakes. The Program supports science that includes: Structure, composition, tectonics, and evolution of the oceanic lithosphere Paleoceanography, paleoclimate, and sea level change Submarine volcanology, petrology and geochemistry of the oceanic crust and upper mantle lithosphere Marine hydrogeology, water-rock interaction, seeps and gas hydrates Hydrothermal venting and in situ fluid processes, and associated geochemistry Geochemical indicators of life operating below the seafloor Marine sedimentology, stratigraphy, sediment transport, and diagenesis Mid-ocean ridge spreading, back-arc rifting, transform processes, and ocean island/seamount formation and evolution Submarine components of subduction zone systems and passive margins Marine geohazards (e.g., earthquakes, faulting, mass wasting, geological aspects of tsunamis) Coastal processes (e.g., geological aspects of hurricanes, sea-level change, erosion, offshore deposition) The Marine Geology and Geophysics Program supports acquisition of new field data and the leveraging of and/or synthesis of existing data. The program supports analytical and laboratory experimental projects, methods development, and modeling. All activities should have relevance to and advance the understanding of marine geoscience processes. The Program interfaces with NSF programs across the Geosciences and across the Agency. For proposals that cross between Programs, proposers should contact the relevant Programs to seek guidance on submission.
GrantUSResearchFacility and Instrumentation Request Process
→The Facility and Instrumentation Request Process (FIRP) solicitation describes the mechanism by which the research community can propose projects that require access to instrumentation and facilities sponsored by the Facilities for Atmospheric Research and Education (FARE) Program in the Division of Atmospheric and Geospace Sciences (AGS). FARE provides funding to a variety of organizations to make specialized instrumentation and facilities available to the atmospheric science research community through the Lower Atmosphere Observing Facilities (LAOF) and the Community Instruments and Facilities (CIF) programs. FIRP allows for parallel evaluation of intellectual merit and broader impacts along with the feasibility of the proposed project. All proposals to AGS that require the use of FARE-sponsored assets must be submitted through this solicitation. The FIRP solicitation offers three proposal submission tracks based on the type and purpose of the request: Track 1 - Education and Outreach. Track 2 - Single Facility Request. Track 3 - Field Campaigns. Preference for funding will be given to proposals submitted to programs in the Division of Atmospheric and Geospace Sciences (AGS) in the Geosciences Directorate (GEO). If you are planning to submit a proposal to a program outside AGS, including NSF-wide or Directorate-wide solicitations, please contact the FARE program director, Shree Mishra at fare@nsf.gov to discuss the timelines, review process, and budget request for the use of FARE assets.
GrantUSResearch