Browse grants

U.S. National Science Foundation · Amount varies

The Biological Anthropology Program seeks to advance scientific knowledge about the processes that have shaped biological diversity in living and fossil humans and their primate relatives through support of basic research on human and primate evolution, biological variation, and interactions between biology, behavior, and culture. The program supports a portfolio of research that demonstrates engagement with biological anthropological and evolutionary theory; includes diverse and interdisciplinary methods in field, laboratory and computational settings; encompasses multiple levels of analysis (e.g., molecular, organismal, population, ecosystem) and time scales from the short-term to evolutionary; and considers the ethical implications and societal impacts of the research. The program also supports a wide range of broader impact activities as part of research grants, including research outcomes with inherent benefit to society, efforts to broaden participation in science, technology, engineering, and mathematics (STEM) research, training and outreach activities and other evidence-based activities developed within the context of the mission, goals, and resources of the organizations and people involved.

U.S. National Science Foundation · Amount varies

Developmental Sciences supports basic research that increases our understanding of perceptual, cognitive, linguistic, social, cultural, and biological processes related to human development across the lifespan. Research supported by this program will add to our knowledge of the underlying developmental processes that support social, cognitive, and behavioral functioning, thereby illuminating ways for individuals to live productive lives as members of society. The Developmental Sciences program supports research that addresses developmental processes within the domains of perceptual, cognitive, social, emotional, language, and motor development across the lifespan by working with any appropriate populations for the topics of interest including infants, children, adolescents, adults (including aging populations), and non-human animals. The program also supports research investigating factors that affect developmental change, including family, peers, school, community, culture, media, physical, genetic, and epigenetic influences. The program funds research that incorporates multidisciplinary, multi-method, and/or longitudinal approaches; develops new methods, models, and theories for studying development; and integrates different processes (e.g., memory, emotion, perception, cognition), levels of analysis (e.g., behavioral, social, neural) and time scales. The program funds basic research that advances our understanding of developmental processes and mechanisms; the program does not fund clinical trials and research focused primarily on health outcomes. The budgets and durations of supported projects vary widely and are greatly influenced by the nature of the project. Investigators should focus on innovative, potentially transformative research plans and then develop a budget to support those activities, rather than starting with a budget number and working up to that value. While there are no specific rules about budget limitations, a typical project funded through the Developmental Sciences program is approximately three years in duration with a total cost budget, including both direct and indirect costs, between $100,000 and $200,000 per year. Interested proposers are urged to explore the NSF awards database for the Developmental Sciences program to review examples of awards that have been made. Proposals that contain budgets significantly beyond this range may be returned without review. The Developmental Sciences program also considers proposals for workshops and small conferences on a case-by-case basis. These typically have total cost budgets, including direct and indirect costs, of approximately $35,000. Conference proposals may only be submitted following an invitation from the Program Directors. In addition to consulting the NSF awards database, it is often useful for interested proposers to submit (via email) a summary of no more than one page so that a program director can advise the investigator on the fit of the project for DS before the preparation of a full proposal. New investigators are encouraged to solicit assistance in the preparation of their project proposals via consultation with senior researchers in their area, pre-submission review by colleagues, and attendance at symposia and events at professional conferences geared towards educating investigators seeking federal funding. The Developmental Sciences Program is always interested in identifying new reviewers. Potential reviewers should have a Ph.D. in psychology or a related field and have a demonstrated area of expertise relevant to developmental science. Individuals interested in reviewing for the program should complete an expression of interest form . SBE/BCS welcomes the submission of proposals to this funding opportunity that include the participation of the full spectrum of diverse talent in STEM,e.g., as PI, co-PI, senior/key personnel, postdoctoral scholars, graduate or undergraduate students, or trainees. This includes historically under-represented or underserved populations, diverse institutions including Minority Serving Institutions (MSIs), Primarily Undergraduate Institutions (PUIs), and two-year colleges, as well as major research institutions. Proposals from EPSCoR jurisdictions are especially encouraged.

Defense Health Agency Contracting Activity - DHACA · Amount varies

Summary: The fiscal year 2026 (FY26) Peer Reviewed Medical Research Program (PRMRP) Discovery Award supports novel, untested, high-risk, high-reward research projects with the potential to provide new insights, paradigms, technologies, or applications and with a potential to generate preliminary data that will lay the foundation for future projects. The application must address a critical problem or question in the field of research and/or patient care in a congressionally directed FY26 PRMRP topic area and one of the FY26 PRMRP portfolio-specific strategic goals. Distinctive Features: Applications must not include preliminary data. The focus of this award mechanism is innovation. Research proposed to this mechanism should be pioneering and revolutionary, and the outcomes generated by the award are expected to generate robust preliminary data that will lay the groundwork for future avenues of scientific investigation or product development. Funding Details: The Congressionally Directed Medical Research Programs (CDMRP) expects to allot roughly $11.165M to fund approximately 29 Discovery Award applications with total cost caps of $385,000 per award. The maximum period of performance is 2 years. It is anticipated that awards made from this FY26 funding opportunity will be funded with FY26 funds, which will expire for use on September 30, 2032. Awards supported with FY26 funds will be made no later than September 30, 2027.

Defense Health Agency Contracting Activity - DHACA · Amount varies

Summary: The fiscal year 2026 (FY26) Peer Reviewed Medical Research Program (PRMRP) Research Advancement Award supports fundamental research studies that will make an important contribution towards research, patient care, and/or quality of life for a disease or condition related to one of the congressionally directed FY26 PRMRP topic areas and one of the FY26 PRMRP portfolio-specific strategic goals. Distinctive Features: Applications must include preliminary data. The Research Advancement Award supports use-inspired basic research to further or validate preliminary findings for short- and long-term impact. Proposed research projects may range from hypothesis testing to expansion of mature data. Funding Details: The Congressionally Directed Medical Research Programs (CDMRP) expects to allot roughly $19.6M to fund approximately 14 Research Advancement Award applications with total cost caps of $1.4M per award. The maximum period of performance is 4 years. It is anticipated that awards made from this FY26 funding opportunity will be funded with FY26 funds, which will expire for use on September 30, 2032. Awards supported with FY26 funds will be made no later than September 30, 2027.

NASA Headquarters · Amount varies

This program element does not have a proposal due date. Proposals may be submitted at any time, pending certain eligibility timing issues related to resubmissions and duplicate proposal avoidance, see the program element text and appropriate overview appendix (e.g., B.1 or C.1). The date shown of 8/1/2026 is the last day that proposals may be submitted subject to the ROSES-25 rules and the current GCAM. The ROSES-26 version of this program element is planned to overlap with this ROSES-25 version by a few weeks, allowing continuous submission of proposals across ROSES years. NOTICE: Amended, January 22, 2026. Table C.2-1: Submission and Review Dates in Section 3.1 has been updated and a new final row with a cutoff date of August 1, 2026, has been added. Also, the expected budget and number of new awards in Section 4 have been increased. New text is in bold and deleted text is struck through. NOTICE: Corrected September 9, 2025. NASEM Astrobiology Strategy citation was corrected to 2019 (see Section 1.1.3), reference to the anonymized Table of Work Effort was added to Section 3.2, and HEC request is not included in anonymized proposal (see Section 3.5). New text is in bold and deleted text is struck through. NOTICE: ROSES-25 Amendment 7 makes the following changes to C.1 the Planetary Research Overview: It establishes funding threshold and submission requirements for substantial instrument or equipment requests (Section 3.11), removes the estimated page limit for pilot studies (Section 3.4) and clarifies text on use of spacecraft mission data (Section 3.5). New text is in bold and deleted text is struck through. A Planetary Science Overview FAQ has been posted under other documents on NSPIRES pages for all of Appendix C. NOTICE: Amended August 1, 2025. This amendment makes several changes: It establishes that the anonymized Table of Work Effort and references are outside of the 5-page S/T/M section (see Section 3.2), removes an exclusion regarding data archiving (see Section 2.1), changes the first proposal submission cut-off date for inclusion in the Winter 2025 review to September 15, 2025, changes the second estimated review date to Spring 2026 (see Table C.2-1 in Section 3.1), and removes the HEC requirement in the S/T/M as it appears as a cover page question, see Section 3.2. New text is in bold and deleted text is struck through . This synopsis is a generic summary that is posted for each of the many individual "program elements" in NASA’s Research Opportunities in Space and Earth Sciences (ROSES) – 2025 solicitation. For specific information on this particular program element download and read the PDF of the text of this program element by going to Tables 2 or 3 of ROSES at https://solicitation.nasaprs.com/ROSES2025table2 and https://solicitation.nasaprs.com/ROSES2025table3 , respectively, click the title of the program element of interest, a hypertext link will take you to a page for that particular program element. On that page, on the right side under "Announcement Documents" the link on the bottom will be to the PDF of the text of the call for proposals. For example, if one were interested in the Solar System Science program (NNH25ZDA001N-SCUBED) one would follow the link to the NSPIRES page for that program element and then to read the text of the call one would click on “C.2 Solar System Science (.pdf)” to download the text of the call. If one wanted to set it into the context of the goals, objectives and know the default rules for all elements within Appendix C, the planetary science division, one might download and read “ C.1 Planetary Science Research Program Overview (.pdf) ” from that same page. While the letters and numbers are different for each element within ROSES (A.10, B.3, etc.) the basic configuration is always the same, e.g., the letter indicates the Science Division (A is Earth Science, B is Heliophysics etc.) and whatever the letter, #1 is always the division overview. In 2025, most program elements will be set up for application via Grants.gov only if requested at least 30 days in advance of the due date. For more on Grants.gov submissions see Section IV(b)v of the ROSES Summary of Solicitation, that may be found at https://solicitation.nasaprs.com/ROSES2025 . The National Aeronautics and Space Administration (NASA) Science Mission Directorate (SMD) released its annual omnibus Research Announcement (NRA), Research Opportunities in Space and Earth Sciences (ROSES) – 2025 (OMB Approval Number 2700-0092, CFDA Number 43.001) on February 21, 2025. In this case "omnibus" means that this NRA has many individual program elements, each with its own due dates and topics. All together these cover the wide range of basic and applied supporting research and technology supported by SMD. Awards will be made as grants, cooperative agreements, or contracts depending on the nature of the work proposed. However, most extramural research awards deriving from ROSES will be grants, and many program elements of ROSES specifically exclude contracts, because contracts would not be appropriate for the nature of the work solicited. Funded Co-Is at government labs will receive inter- or intra-agency transfers . The typical period of performance for an award is three years, but some programs may allow up to five years and others specify shorter periods. In most cases, organizations of every type, Government and private, for profit and not-for-profit, domestic and foreign (with some caveats), may submit proposals without restriction on teaming arrangements. Tables listing the program elements and due dates (Tables 2 and 3 ), a table that provides a very top level summary of proposal contents ( Table 1 ), and the full text of the ROSES-2025 "Summary of Solicitation", may all be found NSPIRES at https://solicitation.nasaprs.com/ROSES2025 . Frequently asked questions for ROSES are posted at http://science.nasa.gov/researchers/sara/faqs . Questions concerning specific program elements should be directed to the point(s) of contact for that particular element, who may be found either at the end of the individual program element in the summary table of key information or on the web list of topics and points of contact at: http://science.nasa.gov/researchers/sara/program-officers-list . General questions concerning ROSES-2025 may be directed to the office of the SMD Deputy Associate Administrator for Research at sara@nasa.gov . Not all program elements are known at the time of the release of ROSES. To be informed of new program elements or amendments to this NRA, proposers may subscribe to: (1) The SMD mailing lists (by logging in at http://nspires.nasaprs.com and checking the appropriate boxes under "Account Management" and "Email Subscriptions"), (2) The ROSES-2025 blog feed for amendments, clarifications, and corrections to at https://science.nasa.gov/researchers/solicitations/roses-2025/ , and (3) The ROSES-2025 due date Google calendars (one for each science division). Instructions are at https://science.nasa.gov/researchers/sara/library-and-useful-links (link from the words due date calendar).

U.S. National Science Foundation · Amount varies

Synopsis of Program: Science and Technology Studies (STS) is an interdisciplinary field that investigates the conceptual foundations, historical developments and social contexts of science, technology, engineering and mathematics (STEM), including medical science. The STS program supports proposals across a broad spectrum of research that uses historical, philosophical and social scientific methods to investigate STEM theory and practice. STS research may be empirical or conceptual; specifically, it may focus on the intellectual, material or social facets of STEM. Additional Resources SBE Office of Multidisciplinary Activities (SMA) Convergence Accelerator (C-Accel)

U.S. National Science Foundation · Amount varies

The aim of the PAC program is to support empirically grounded, theoretically engaged and methodologically sophisticated research in a wide range of topic areas related to human perceptual, motor, and cognitive processes and their interactions. The PAC program welcomes a wide range of perspectives and a variety of methodologies (including computational modeling if the goal is to expand explanatory theories of human perception, action, or cognition). PAC strongly encourages proposals that examine human behavior in realistic (or real-world) scenarios and that include varied subject population. It is expected that knowledge gained from PAC-supported projects will have a clear and direct path towards benefitting society. PAC is open to co-review of proposals submitted to other programs both within the Social, Behavioral, and Economic Sciences Directorate and across other directorates. Note: Proposals may be returned without review if the primary goal of the research is to understand (1) structure/function mappings between PAC processes and neural activity; (2) clinical populations per se; or (3) behavior of non-human animals without a clear and direct impact on our understanding of human perception, action or cognition. Before submitting a proposal, investigators are encouraged to email sbe-pac@nsf.gov with a one-page summary of the proposed research (modeled after the Project Summary page of a standard proposal and including a description of both Intellectual Merit and Broader Impacts) in order to confirm appropriateness of the work for the PAC program. PIs are strongly encouraged to submit the Single Copy Document titled “List of Suggested Reviewers” with their full proposal. Sharing of data and other materials is an expectation for funded research. Please consult the NSF Dear Colleague Letter: Effective Practices for Data for more details. Interested in talking with a program director? Send a one-page description of the proposed research to sbe-pac@nsf.gov .

U.S. National Science Foundation · Amount varies

The primary aim of the Mathematical Sciences Infrastructure Program is to foster the continuing health of the mathematical sciences research community as a whole. In addition,the program complements the Workforce Program in the Mathematical Sciences in its goal to increase the number of well-prepared U.S. based individuals who successfully pursue careers in the mathematical sciences and in other professions in which expertise in the mathematical sciences plays an increasingly important role. The DMS Infrastructure program invites projects that support core research in the mathematical sciences, including: 1) novel projects supporting research infrastructure across the mathematical sciences community; 2) training projects complementing the Workforce Program, and 3) conference, workshop, and travel support requests that include cross-disciplinary activities or have an impact at the national scale. Proposals under this solicitation submitted to DMS Infrastructure must show engagement in developing or enhancing the mathematical sciences research infrastructure in the U.S., including, but not limited to, broadening participation activities; professional development training; or involvement of students and early career researchers. Proposals must explain the regional or national scale impact of the activity that goes substantially beyond the submitting institution or the location of the event. Full proposals (with exception of conference proposals, which are subject to lead-time requirements) must be submitted close to one of the Full Proposal Target Dates. See below for more information about each category of Infrastructure projects. (1)Novel projects that serve to strengthen the research infrastructure: The DMS Infrastructure Program will consider novel projects that support and strengthen the research infrastructure across the mathematical sciences community. These projects most often cut across multiple sub-disciplines supported by DMS or involve interdisciplinary collaborations. The main goal of these projects should be to create a new research infrastructure or substantially enhance or transform an existing infrastructure with regional or national impact that goes substantially beyond the submitting institution or the location of the project. Full proposals must be submitted by the Full ProposalTarget Date. (2)Training projects: Training proposals submitted to DMS Infrastructure must not fit into one of the areas covered by solicitations in the Workforce Program in the Mathematical Sciences ; they must be submitted by the Full ProposalTarget Date; and they must: A. Include a core research component for trainees in mathematical sciences; B. Demonstrate promise for an impact at the regional or national scale that goes substantially beyond the submitting institution or the location of the project; C. Satisfy at least one of the following criteria: i. Serve as models to be replicated, ii. Promote partnerships with non-academic entities, minority-serving institutions, or community colleges, or iii. Include a substantial broadening participation initiative. In addition, all proposals of this type must clearly identify: Goals to be achieved; Specific new activities to be conducted, the way in which these address the goals, and the way in which the activities significantly differ from or enhance common practice; Measurable outcomes for the project; Plans and methods for assessment of progress toward the goals to be achieved, and for evaluation of the success of the activity; Recruitment, selection, and retention plans for participants, including members of underrepresented groups; Sustainability plans to continue the pursuit of the project's goals when funding terminates; and A budget commensurate with the proposed activity. 3) Conferences, Symposia, Working Research Sessions, Travel Support Requests: Principal Investigators should carefully read the program solicitation Conferences and Workshops in the Mathematical Sciences to obtain important information regarding the substance of proposals for conferences, workshops, summer/winter schools, international travel support, and similar activities.Conference/workshop proposals that concern topics within a particular subdiscipline of mathematics or statistics should be submitted to the appropriate DMS disciplinary program(s). These submissions are subject to the lead-time requirements specified by the disciplinary program(s); see the program web pages listed on the DMS home page . Conference/workshop proposals may be submitted to the DMS Infrastructure program only if the intended topical areas span a wide range of the mathematical sciences and are consequently not within the scope of DMS disciplinary programs. The required lead time for submission of such proposals is: 6 months in advance of the meeting date for proposals requesting no more than $50,000 to support a domestic meeting; 9 months in advance of the meeting date for proposals requesting more than $50,000 to support a domestic meeting; 12 months in advance of the meeting date for proposals requesting support for participation in a meeting taking place outside the United States.

U.S. National Science Foundation · From $550

Science of Learning and Augmented Intelligence (SL) supports potentially transformative research that develops basic theoretical insights and fundamental knowledge about principles, processes and mechanisms of learning, and about augmented intelligence — how human cognitive function can be augmented through interactions with others or with technology, or through variations in context. The program supportsresearch addressing learning in individuals and in groups, across a wide range of domains at one or more levels of analysis, including molecular and cellular mechanisms; brain systems; cognitive, affective and behavioral processes; and social and cultural influences. The program also supports research on augmented intelligence that clearly articulates principled ways in which human approaches to learning and related processes, such as in design, complex decision-making and problem-solving, can be improved through interactions with others or through the use of artificial intelligence in technology. These could include ways of using knowledge about human functioning to improve the design of collaborative technologies that have the capacity to learn to adapt to humans. For both aspects of the program, there is special interest in collaborative and collective models of learning and intelligence that are supported by the unprecedented speed and scale of technological connectivity.This includes emphasis on how people and technology working together in new ways and at scale can achieve more than either can attain alone. The program also seeks explanations for how the emergent intelligence of groups, organizations and networks intersects with processes of learning, behavior and cognition in individuals. Projects that are convergent or interdisciplinary may be especially valuable in advancing basic understanding of these areas, but research within a single discipline or methodology is also appropriate.Connections between proposed research and specific technological, educational and workforce applications will be considered as valuable broader impacts but are not necessarily central to the intellectual merit of proposed research. The program supports a variety of approaches, including experiments, field studies, surveys, computational modeling, and artificial intelligence or machine learning methods. Examples of general research questions within scope of Science of Learning and Augmented Intelligence (SL)include: What are the underlying mechanisms that support transfer of learning from one context to another or from one domain to another?How is learning generalized from a small set of specific experiences?What is the basis for robust learning that is resilient against potential interference from new experiences?How is learning consolidated and reconsolidated from transient experience to stable memory? How do human interactions with technologies, imbued with artificial intelligence, provide improved human task performance?What models best describe the interplay of the individual and collaborative processes that lead to co-creation of knowledge and collective intelligence? In what ways do the capacities and constraints of human cognition inform improved methods of human-artificial intelligence collaboration? How can we integrate research findings and insights across levels of analysis, relating understanding of cellular and molecular mechanisms of learning in the neurons, to circuit and systems-level computations of learning in the brain, to cognitive, affective, social and behavioral processes of learning? What is the relationship between assembly of new networks (development) and learning new knowledge in a maturing or mature brain? What concepts, tools (including Big Data, machine learning, and other computational models) or questions will provide the most productive linkages across levels of analysis? How can insights from biological learners contribute and derive new theoretical perspectives to artificial intelligence, neuromorphic engineering, materials science and nanotechnology? How can the ability of biological systems to learn from relatively few examples improve efficiency of artificial systems?How do learning systems (biological and artificial) address complex issues of causal reasoning?How can knowledge about the ways in which humans learn help in the design of human-machine interfaces?

NASA Headquarters · Amount varies

PLEASE NOTE: this program has MANDATORY Notices of Intent, which are due via NSPIRES by June 25, 2026. See the full posting on NSPIRES for details. NOTICE: Amended May 8, 2026. This amendment releases final text for this program element, which was previously TBD. Mandatory Notices of Intent are due June 25, 2026, and proposals are due August 6, 2026. This synopsis is a generic summary that is posted for each of the many individual "program elements" in NASA’s Research Opportunities in Space and Earth Sciences (ROSES) – 2025 solicitation. For specific information on this particular program element download and read the PDF of the text of this program element by going to Tables 2 or 3 of ROSES at https://solicitation.nasaprs.com/ROSES2025table2 and https://solicitation.nasaprs.com/ROSES2025table3 , respectively, click the title of the program element of interest, a hypertext link will take you to a page for that particular program element. On that page, on the right side under "Announcement Documents" the link on the bottom will be to the PDF of the text of the call for proposals. For example, if one were interested in the Solar System Science program (NNH25ZDA001N-SCUBED) one would follow the link to the NSPIRES page for that program element and then to read the text of the call one would click on “C.2 Solar System Science (.pdf)” to download the text of the call. If one wanted to set it into the context of the goals, objectives and know the default rules for all elements within Appendix C, the planetary science division, one might download and read “ C.1 Planetary Science Research Program Overview (.pdf) ” from that same page. While the letters and numbers are different for each element within ROSES (A.10, B.3, etc.) the basic configuration is always the same, e.g., the letter indicates the Science Division (A is Earth Science, B is Heliophysics etc.) and whatever the letter, #1 is always the division overview. In 2025, most program elements will be set up for application via Grants.gov only if requested at least 30 days in advance of the due date. For more on Grants.gov submissions see Section IV(b)v of the ROSES Summary of Solicitation, that may be found at https://solicitation.nasaprs.com/ROSES2025 . The National Aeronautics and Space Administration (NASA) Science Mission Directorate (SMD) released its annual omnibus Research Announcement (NRA), Research Opportunities in Space and Earth Sciences (ROSES) – 2025 (OMB Approval Number 2700-0092, CFDA Number 43.001) on February 21, 2025. In this case "omnibus" means that this NRA has many individual program elements, each with its own due dates and topics. All together these cover the wide range of basic and applied supporting research and technology supported by SMD. Awards will be made as grants, cooperative agreements, or contracts depending on the nature of the work proposed. However, most extramural research awards deriving from ROSES will be grants, and many program elements of ROSES specifically exclude contracts, because contracts would not be appropriate for the nature of the work solicited. Funded Co-Is at government labs will receive inter- or intra-agency transfers . The typical period of performance for an award is three years, but some programs may allow up to five years and others specify shorter periods. In most cases, organizations of every type, Government and private, for profit and not-for-profit, domestic and foreign (with some caveats), may submit proposals without restriction on teaming arrangements. Tables listing the program elements and due dates (Tables 2 and 3 ), a table that provides a very top level summary of proposal contents ( Table 1 ), and the full text of the ROSES-2025 "Summary of Solicitation", may all be found NSPIRES at https://solicitation.nasaprs.com/ROSES2025 . Frequently asked questions for ROSES are posted at http://science.nasa.gov/researchers/sara/faqs . Questions concerning specific program elements should be directed to the point(s) of contact for that particular element, who may be found either at the end of the individual program element in the summary table of key information or on the web list of topics and points of contact at: http://science.nasa.gov/researchers/sara/program-officers-list . General questions concerning ROSES-2025 may be directed to the office of the SMD Deputy Associate Administrator for Research at sara@nasa.gov . Not all program elements are known at the time of the release of ROSES. To be informed of new program elements or amendments to this NRA, proposers may subscribe to: (1) The SMD mailing lists (by logging in at http://nspires.nasaprs.com and checking the appropriate boxes under "Account Management" and "Email Subscriptions"), (2) The ROSES-2025 blog feed for amendments, clarifications, and corrections to at https://science.nasa.gov/researchers/solicitations/roses-2025/ , and (3) The ROSES-2025 due date Google calendars (one for each science division). Instructions are at https://science.nasa.gov/researchers/sara/library-and-useful-links (link from the words due date calendar).

NASA Headquarters · Amount varies

NOTICE: Amended May 8, 2026. This amendment releases final text for this program element, which was previously TBD . Notices of Intent are requested by June 25, 2026, and proposals are due August 6, 2026. This synopsis is a generic summary that is posted for each of the many individual "program elements" in NASA’s Research Opportunities in Space and Earth Sciences (ROSES) – 2025 solicitation. For specific information on this particular program element download and read the PDF of the text of this program element by going to Tables 2 or 3 of ROSES at https://solicitation.nasaprs.com/ROSES2025table2 and https://solicitation.nasaprs.com/ROSES2025table3 , respectively, click the title of the program element of interest, a hypertext link will take you to a page for that particular program element. On that page, on the right side under "Announcement Documents" the link on the bottom will be to the PDF of the text of the call for proposals. For example, if one were interested in the Solar System Science program (NNH25ZDA001N-SCUBED) one would follow the link to the NSPIRES page for that program element and then to read the text of the call one would click on “C.2 Solar System Science (.pdf)” to download the text of the call. If one wanted to set it into the context of the goals, objectives and know the default rules for all elements within Appendix C, the planetary science division, one might download and read “ C.1 Planetary Science Research Program Overview (.pdf) ” from that same page. While the letters and numbers are different for each element within ROSES (A.10, B.3, etc.) the basic configuration is always the same, e.g., the letter indicates the Science Division (A is Earth Science, B is Heliophysics etc.) and whatever the letter, #1 is always the division overview. In 2025, most program elements will be set up for application via Grants.gov only if requested at least 30 days in advance of the due date. For more on Grants.gov submissions see Section IV(b)v of the ROSES Summary of Solicitation, that may be found at https://solicitation.nasaprs.com/ROSES2025 . The National Aeronautics and Space Administration (NASA) Science Mission Directorate (SMD) released its annual omnibus Research Announcement (NRA), Research Opportunities in Space and Earth Sciences (ROSES) – 2025 (OMB Approval Number 2700-0092, CFDA Number 43.001) on February 21, 2025. In this case "omnibus" means that this NRA has many individual program elements, each with its own due dates and topics. All together these cover the wide range of basic and applied supporting research and technology supported by SMD. Awards will be made as grants, cooperative agreements, or contracts depending on the nature of the work proposed. However, most extramural research awards deriving from ROSES will be grants, and many program elements of ROSES specifically exclude contracts, because contracts would not be appropriate for the nature of the work solicited. Funded Co-Is at government labs will receive inter- or intra-agency transfers . The typical period of performance for an award is three years, but some programs may allow up to five years and others specify shorter periods. In most cases, organizations of every type, Government and private, for profit and not-for-profit, domestic and foreign (with some caveats), may submit proposals without restriction on teaming arrangements. Tables listing the program elements and due dates (Tables 2 and 3 ), a table that provides a very top level summary of proposal contents ( Table 1 ), and the full text of the ROSES-2025 "Summary of Solicitation", may all be found NSPIRES at https://solicitation.nasaprs.com/ROSES2025 . Frequently asked questions for ROSES are posted at http://science.nasa.gov/researchers/sara/faqs . Questions concerning specific program elements should be directed to the point(s) of contact for that particular element, who may be found either at the end of the individual program element in the summary table of key information or on the web list of topics and points of contact at: http://science.nasa.gov/researchers/sara/program-officers-list . General questions concerning ROSES-2025 may be directed to the office of the SMD Deputy Associate Administrator for Research at sara@nasa.gov . Not all program elements are known at the time of the release of ROSES. To be informed of new program elements or amendments to this NRA, proposers may subscribe to: (1) The SMD mailing lists (by logging in at http://nspires.nasaprs.com and checking the appropriate boxes under "Account Management" and "Email Subscriptions"), (2) The ROSES-2025 blog feed for amendments, clarifications, and corrections to at https://science.nasa.gov/researchers/solicitations/roses-2025/ , and (3) The ROSES-2025 due date Google calendars (one for each science division). Instructions are at https://science.nasa.gov/researchers/sara/library-and-useful-links (link from the words due date calendar).

Defense Health Agency Contracting Activity - DHACA · Amount varies

Summary: The fiscal year 2026 (FY26) Tuberous Sclerosis Complex Research Program (TSCRP) Clinical Translational Research Award (CTRA) supports studies that will move promising, well-founded preclinical and/or clinical research findings closer to clinical application, including diagnosis, prognosis or treatment of tuberous sclerosis complex (TSC). Distinctive Features: This funding mechanism allows for multiple Principal Investigators (PIs). Only the initiating PI will submit a pre-application, but all PIs will need to submit full applications. The partnering PI(s) application is an abbreviated package specific to their distinct portion of the research project. Be advised, all associated applications for a research project may be withdrawn if the initiating or partnering application is rejected or administratively withdrawn.

Defense Health Agency Contracting Activity - DHACA · Amount varies

Summary: The fiscal year 2026 (FY26) Peer Reviewed Medical Research Program (PRMRP) Impact Award supports applied research, defined as use-inspired and practice-oriented science that brings together outcomes from basic research, and insights from the real-world environment, to foster clinical applicability. The Impact Award intends to translate the fundamental understanding of underlying mechanisms toward solutions that have the potential for major near-term impact for patients and clear alignment to one of the congressionally directed FY26 PRMRP topic areas and one of the FY26 PRMRP portfolio-specific strategic goals. Distinctive Features: This funding mechanism allows for multiple Principal Investigators (PIs). Only the initiating PI’s organization will submit a pre-application, but all PIs’ organizations will need to submit full applications. The partnering PI’s application is an abbreviated package specific to their distinct portion of the research project. Be advised, all associated applications for a research project may be withdrawn if the initiating or partnering application is rejected or administratively withdrawn. Funding Details: The Congressionally Directed Medical Research Programs (CDMRP) expects to allot roughly $32.0M to fund approximately 10 Impact Award applications with total cost caps of $2.8M for the Single PI Option, or $3.6M for the Partnering PI Option. The maximum period of performance is 4 years. It is anticipated that awards made from this FY26 funding opportunity will be funded with FY26 funds, which will expire for use on September 30, 2032. Awards supported with FY26 funds will be made no later than September 30, 2027.

Defense Health Agency Contracting Activity - DHACA · Amount varies

Summary: The fiscal year 2026 (FY26) Peer Reviewed Medical Research Program (PRMRP) Lifestyle and Applied Health Research Award supports clinical research and/or clinical trials using a combination of scientific disciplines including occupational science, psychology, psychometrics, biostatistics and epidemiology, surveillance, implementation science, and population health. Applications must address and provide a solution to one of the congressionally directed FY26 PRMRP topic areas and one of the FY26 PRMRP strategic goals. Distinctive Features: This funding opportunity requires patient advocate participation. The patient advocate will be a person living with, or a family member or caretaker of someone with, a disease or condition addressed in one of the congressionally directed FY26 PRMRP topic areas. Animal research is not allowed. Funding Details: The Congressionally Directed Medical Research Programs (CDMRP) expects to allot roughly $16.8M to fund approximately four Lifestyle and Applied Health Research Award applications with total cost caps of $4.2M per award. The maximum period of performance is 4 years. It is anticipated that awards made from this FY26 funding opportunity will be funded with FY26 funds, which will expire for use on September 30, 2032. Awards supported with FY26 funds will be made no later than September 30, 2027.

Defense Health Agency Contracting Activity - DHACA · Amount varies

Summary: The fiscal year 2026 (FY26) Tuberous Sclerosis Complex Research Program (TSCRP) Idea Development Award (IDA) supports conceptually innovative and high-impact research that could ultimately lead to critical discoveries in tuberous sclerosis complex (TSC) research and/or improvements in patient care. Distinctive Features: This funding mechanism allows for established and new-to-the-field investigators. New-to-the-field investigators are independent investigators that are early in their faculty appointments and/or established investigators transitioned from other research fields into TSC research. Applications to the New-to-the-Field option will compete separately from the Established Investigators submitting to the regular Idea Development Award (IDA).

Defense Health Agency Contracting Activity - DHACA · Amount varies

Summary: The fiscal year 2026 (FY26) Tuberous Sclerosis Complex Research Program (TSCRP) Exploration-Hypothesis Development Award (EHDA) supports the initial exploration of innovative, high-risk, high-gain and potentially groundbreaking concepts in the tuberous sclerosis complex (TSC) research field. Distinctive Features: Preliminary Data is not required. Applications should demonstrate the ability to achieve interpretable results in the absence of preliminary data supporting the hypothesis.

Defense Health Agency Contracting Activity - DHACA · Amount varies

Summary: The fiscal year 2026 (FY26) Peer Reviewed Medical Research Program (PRMRP) Technology/Therapeutic Development Award, a product-driven award mechanism, intends to support the translation of promising preclinical findings into products for clinical applications, including prevention, detection, diagnosis, treatment, or quality of life, for a disease or condition related to one of the congressionally directed FY26 PRMRP topic areas and one of the FY26 PRMRP strategic goals. Products can be tangible items, such as drugs or devices, or can be knowledge products, such as clinical decision-making tools or practice guidelines. Products in development should address or have dual purpose potential for the health care needs of military Service Members, Veterans and their Families. Distinctive Features: For the PRMRP Technology/Therapeutic Development Award, the program expects the research proposed will take an already established proof-of-concept or prototype through the final stages of preclinical development. The PRMRP also expects that the research outcome will be a regulatory filing or translation of findings into clinical practice, as applicable. Funding Details: The Congressionally Directed Medical Research Programs (CDMRP) expects to allot roughly $67.2M to fund approximately 12 Technology/Therapeutic Development Award applications with total cost caps of $5.6M per award. The maximum period of performance is 4 years. It is anticipated that awards made from this FY26 funding opportunity will be funded with FY26 funds, which will expire for use on September 30, 2032. Awards supported with FY26 funds will be made no later than September 30, 2027.

U.S. National Science Foundation · $100K–$2M

The Centers of Research Excellence in Science and Technology (CREST) program provides support to enhance the research capabilities of minority-serving institutions (MSIs) as defined in this solicitation’s Eligibility section, through effective integration of education and research. The CREST program, composed of the CREST Centers, the CREST Postdoctoral Research Program, and the projects supported by this CREST-RISE solicitation, promotes the development of new knowledge, enhancements of the research productivity of individual faculty and postdoctoral scholars, and an expanded presence of research doctoral students in science, technology, engineering, and mathematics (STEM) disciplines, especially those from underrepresented groups. CREST-RISE is the component of the CREST program that supports the expansion of institutional research capacity by increasing the strength of institutional graduate programs and the successful production of research doctoral students, especially those from groups underrepresented in STEM. The CREST-RISE component supports STEM research doctoral programs in all NSF supported areas and encourages proposals in areas of national interest, such as artificial intelligence, data science and analytics; advanced materials, manufacturing, robotics; cybersecurity; plant genetics/agricultural technologies; quantum information sciences; nanotechnology, semiconductors/microelectronics technologies; climate change and clean energy. CREST-RISE projects must have a direct connection to the long-term plans of the host department(s) and the institution’s strategic plan and mission. Project plans should emphasize activities designed to increase the production of research doctoral students, especially those underrepresented in STEM as well as expand institutional research capacity. The goals of CREST-RISE are to increase: 1) the number of STEM research doctoral programs at MSIs (as defined in the Eligibility section), 2) the number of STEM research doctoral students graduating from MSIs, especially those from groups underrepresented in STEM, and 3) institutional research capacity to increase doctoral students’ graduation rates.To achieve these goals, the CREST-RISE program includes three tracks as follows: CREST-RISE STEM Doctoral Programs Support Initiative (CREST-RISE DPSI) CREST-RISE Research Advancement and Development (CREST-RISE RAD) CREST-RISE Equipment & Instrumentation (CREST-RISE E&I)

U.S. National Science Foundation · Amount varies

Plasma science is a transdisciplinary field of research where fundamental studies in many disciplines, including plasma physics, plasma chemistry, materials science, and space science, come together to advance knowledge for discovery and technological innovation. The primary goal of the EC osystem for L eading I nnovation in P lasma S cience and E ngineering (ECLIPSE) program is to identify and capitalize on opportunities for bringing fundamental plasma science investigations to bear on problems of societal and technological need within the scope of science and engineering supported by the participating NSF programs. The ECLIPSE meta-program has been created to foster an inclusive community of scientists and engineers, an ecosystem spanning multiple NSF Directorates, in the pursuit of translational research at the interface of fundamental plasma science and technological innovation. The ECLIPSE program builds on the long history of NSF leadership in supporting multi-disciplinary research in plasma science and engineering, and is intended to enhance organizational unity within NSF, and potentially with other funding agencies, in considering proposals and supporting projects that may otherwise struggle to find a natural home within the existing hierarchy of Directorates, Divisions, and programs within the Foundation. Examples of topical areas within the scope of the ECLIPSE program include but are not limited to: Plasma surface interactions, with applications to, e.g., advanced manufacturing, materials processing, and catalysis. Atmospheric pressure plasmas and microplasmas with applications to, e.g., microelectronics, plasma agriculture, environmental remediation, and other clean and decarbonized energy goals enabled by electrification of the chemical industry. Dusty plasmas with applications to, e.g., development of nanomaterials, aerosols, and functionalized surface coatings. Novel sensor development for highly non-equilibrium plasmas with applications to, e.g., cubesat-based geospace measurements and industrial plasma diagnostics. Novel computational modeling for multi-component and/or multi-phase plasma systems with applications to, e.g., space weather prediction and plasma reactor design. Novel studies of plasmons in nano-photonics and nano-optics with applications to, e.g., sub-THz wireless communication and photocatalytic chemical processes. New chemical measurement science for characterizing processes occurring in plasmas and using plasmas as part of measurement systems with applications to, e.g., analysis of environmental contaminants or identification of forensic evidence. Study of fundamental chemical reactions and mechanisms in plasmas with applications to, e.g., novel chemical synthesis. Proposals submitted for consideration by this program should address societal or technological needs within the scope of science and engineering supported by the National Science Foundation. Proposals addressing technology development primarily supported by other US government funding agencies are not eligible for consideration and may be returned without review. Proposers are strongly encouraged to contact the cognizant Program Officers if they are unsure of the suitability of a project to this program. Proposals submitted for consideration by the ECLIPSE program should satisfy the following criteria: (1) clearly articulate the fundamental scientific and/or engineering challenge in plasma science and engineering that may be relevant to more than one NSF program; and (2) provide a substantive discussion of how a resolution of the stated scientific and/or engineering challenge will address specific societal and/or technological needs identified as priorities by the research communities, policymakers and/or other stakeholders. Depending on the nature of the proposal, the latter may be described as the Intellectual Merit or the Broader Impact of the proposed activity. The program encourages inclusion of specific efforts to increase the diversity of the ECLIPSE community and to broaden participation of under-represented groups in Science, Technology, Engineering, and Mathematics (STEM) as Broader Impacts of proposed work. The program welcomes proposals from Historically Black Colleges and Universities (HBCUs), other Minority Serving Institutions (MSIs), and institutions in EPSCoR-eligible jurisdictions , along with collaborations between these institutions. Proposers are also encouraged to address how the proposed efforts may enhance workforce development towards STEM careers associated with the field of plasma science and engineering. The ECLIPSE program is not intended to replace existing programs. A proposal that is requesting consideration within the context of ECLIPSE should begin the title with the identifying acronym "ECLIPSE:" and should be submitted to one of the "Related Programs" listed below. In choosing the most relevant program, proposers are advised to read program descriptions and solicitations carefully and to consult with cognizant Program Officers in advance of proposal preparation. Proposal submissions outside of the scientific scope of the receiving program may be transferred to a different program or may be returned without review. Proposers should ask for consideration and review as an ECLIPSE proposal only if the proposal addresses both of the criteria listed above. Proposals marked for consideration by the ECLIPSE program that do not address both of these criteria may be returned without review or reviewed within the context of an individual program. Supplement requests to existing awards within a program that address both of the above criteria may also be considered. Information Sharing with other Funding Agencies When permitted under an MOU between NSF and another funding agency, NSF may share information from proposals for consideration of joint funding and may invite employees of such organizations to attend merit review panels as observers.

U.S. National Science Foundation · Amount varies

Correctness for Scientific Computing Systems (CS 2 ) is a joint program of the National Science Foundation (NSF) and the Department of Energy (DOE). The program addresses challenges that are both core to DOE’s mission and essential to NSF’s mission of ensuring broad scientific progress. The program’s overarching goal is to elevate correctness as a fundamental requirement for scientific computing tools and tool chains, spanning low-level libraries through complex multi-physics simulations and emerging scientific workflows. At an elementary level, correctness of a system means that desired behavioral properties will be satisfied during the system’s execution. In the context of scientific computing, correctness can be understood, at both the level of software and hardware, as absence of faulty behaviors such as excessive numerical rounding, floating-point exceptions, data races deadlocks, memory faults, violations of specifications at interfaces of system modules, and so on. The CS 2 program puts correctness on an equal footing with performance, the focus of current scientific computing research. This program envisions the necessity of proving correctness even in performant scientific computing systems. Such correctness proofs themselves might rely upon multiple factors, including correctness of static and runtime program analyses. Recognizing that many scientific computing applications are inherently statistical, use probabilistic or randomized algorithms, and/or deal with uncertain data, probabilistic notions of correctness may be needed. It is also critical to realize that correctness guarantees are provided with respect to some pre-defined system model. For many reasons, including misspecification, approximation, and defect, the state space allowed by real systems might depart from that model. When this happens, the ability to probe the system to isolate the discrepancy is a key challenge in many domains. CS 2 requires close and continuous collaboration between researchers in two complementary areas of expertise. One area is scientific computing, which, for this solicitation, is broadly construed to include: models and simulations of scientific theories; management and analysis of data from scientific simulations, observations, and experiments; libraries for numerical computation; and allied topics. The second area is formal reasoning and mechanized proving of properties of programs, which, for this solicitation, is broadly construed to include automatic/interactive/auto-active verification, runtime verification, type systems, abstract interpretation, programming languages, program analysis, program logic, compilers, concurrency, stochastic reasoning, static and dynamic testing, property-based testing, and allied topics.