1. Opportunities and Challenges in Obtaining NSF Funding Parag R Chitnis
Program Director
Division of Molecular and Cellular Biosciences
3. Outline NSF Information
Mission
Organization
Budget Outlook and Priorities for FY2006
Basics of NSF Funding Opportunities and Review
Strategies for Fostering Institutional Grant Success
4. Origins of NSF “The Government should accept new responsibilities for promoting the flow of scientific knowledge and the development of scientific talent in our youth.”
Science, The Endless Frontier, 1945
1947: Congress Approves, Truman Vetoes
1950: Compromise Bill Approved & Signed by Truman
5. Is an Independent Agency of the Federal Government
Was established in 1950 to promote and advance scientific progress in the United States by sponsoring scientific research and by supporting selected activities in science and engineering
Does not conduct research itself.
Advances progress in science, mathematics and engineering
Strategic Goals-
People, Ideas, Tools, Organizational Excellence
6. NSF by the Numbers – FY 2003
7. NSF Role in Total Federal R&D�FY 2005 Budget
8. NSF’s Share of Total Federal Basic Research Proposed for FY 2006 ($27 billion)
9. NSF Academic Research Obligations�(Percent of Federal: FY 2005)
11. Example of Directorate Organization This is the way BIO directorate is set up to handle funding the next generation of biology.
�EF is a virtual units that crosses all unit. It is designed to flexible enough to meet the changing needs of the community. This is the way BIO directorate is set up to handle funding the next generation of biology.
12. Growth in NSF Budget FY 2000-2006 (mil)
13. NSF Funding Profile �(FY 2006)
14. Increasing funding rate for NSF research grants is a major challenge for NSF
15. NSF FY 2006 Budget by Account (mil)
16. NSF FY 2006 Budget Priorities Strengthen core disciplinary research�
Provide broadly accessible cyberinfrastructure and world-class facilities�
Broaden participation in the science and engineering workforce�
Sustain organizational excellence in NSF management practices
17. NSF Priority Areas for FY2006 Biocomplexity in the Environment
$ 84 million�
Nanoscale Science and Engineering
$ 243 million�
Mathematical Sciences
$ 89 million�
Human and Social Dynamics
$ 39 million
Cyberinfrastructure
$ 509 million
18. Outline NSF in the federal R and D context
NSF Information
Mission
Organization
Budget Outlook and Priorities for FY2006
Basics of NSF Funding Opportunities and Review
Strategies for Fostering Institutional Grant Success
19. Funding Opportunities Unsolicited Proposals in Disciplinary Programs
Regular research grants- RUI
CAREER program
SGER and conference grants
Supplements for broadening participation and for enhancing research impacts
Solicited proposals for specific programs
C-RUI grants
Center grants- S&T centers, MRSEC, NSEC
Training grants- IGERT, REU sites, GK12
Instrumentation grants
Priority areas
Education Grants
20. Regular Research Grants Unsolicited
Any topic
BIO Directorate does not consider disease related research proposals.
BIO Directorate does not consider duplicate proposals unless you are a beginning investigator.
Research Programs and Clusters are described on the web page.
21. RUI: �Research in Undergraduate Institution Objectives
To support high-quality research by faculty members of predominantly undergraduate institutions
To strengthen the research environment in academic departments that are oriented primarily toward undergraduate instruction
To promote the integration of research and education
Eligibility
Institution
NSF-supported fields, More undergrads than grads, <10 doctoral degrees/year,
Department
No Doctoral program or participation in such program
Investigator
Does not advise doctoral students
RUI Impact Statement
Describes the expected effects of the proposed research on the research and educational environment of the institution Eligible "predominantly undergraduate" institutions include U.S. two-year, four-year,
masters-level, and small doctoral colleges and universities. Eligible institutions (1) grant
baccalaureate degrees in NSF-supported fields, or provide programs of instruction for students
pursuing such degrees with institutional transfers (e.g., two-year schools); (2) have
undergraduate enrollment exceeding graduate enrollment; and (3) award no more than an
average of 10 Ph.D. and/or D.Sc. degrees per year in all disciplines that NSF supports, averaged
over 2 to 5 years preceding proposal submission. Proposals involving more than one academic
institution are acceptable, but one predominantly undergraduate institution must have overall
management responsibility. Collaborations between predominantly undergraduate institutions
and other institutions may be proposed; however, most of the researchers must be at
predominantly undergraduate institutions. Autonomous campuses in a system are considered
independently, although they may be submitting their proposals through a central office. It is
therefore very important that the predominantly undergraduate campus be identified as the
performing organization on the proposal cover sheet.
B. Eligible departments (principal investigators) (1) must offer courses that qualify for
bachelor's degree credit in NSF-supportable fields and (2) may offer master's degrees, but may
not award a doctorate or offer doctoral courses and supervise doctoral research, even though the
Ph.D. is not technically awarded by that campus.
Eligible "predominantly undergraduate" institutions include U.S. two-year, four-year,
masters-level, and small doctoral colleges and universities. Eligible institutions (1) grant
baccalaureate degrees in NSF-supported fields, or provide programs of instruction for students
pursuing such degrees with institutional transfers (e.g., two-year schools); (2) have
undergraduate enrollment exceeding graduate enrollment; and (3) award no more than an
average of 10 Ph.D. and/or D.Sc. degrees per year in all disciplines that NSF supports, averaged
over 2 to 5 years preceding proposal submission. Proposals involving more than one academic
institution are acceptable, but one predominantly undergraduate institution must have overall
management responsibility. Collaborations between predominantly undergraduate institutions
and other institutions may be proposed; however, most of the researchers must be at
predominantly undergraduate institutions. Autonomous campuses in a system are considered
independently, although they may be submitting their proposals through a central office. It is
therefore very important that the predominantly undergraduate campus be identified as the
performing organization on the proposal cover sheet.
B. Eligible departments (principal investigators) (1) must offer courses that qualify for
bachelor's degree credit in NSF-supportable fields and (2) may offer master's degrees, but may
not award a doctorate or offer doctoral courses and supervise doctoral research, even though the
Ph.D. is not technically awarded by that campus.
22. cRUI: Cross-disciplinary Research at Undergraduate Institutions Objectives
to support research efforts involving faculty from different fields and undergraduate students at predominantly undergraduate institutions.
to catalyze a cultural change in undergraduate research and education -- for students, faculty and institutions -- by establishing innovative models for collaboration that transcend traditional disciplinary boundaries.
Eligibility
Same as RUI
Program suppots
faculty at PUIs to develop multidisciplinary research programs
Development of new research-based education and training activities integrated in the proposed multidisciplinary research.
Participation of two-year colleges and minority-serving institutions through partnerships with research-intensive institutions, provided that the submitting institution is RUI-eligible and that primary research activities are performed at the RUI institution. Eligible "predominantly undergraduate" institutions include U.S. two-year, four-year,
masters-level, and small doctoral colleges and universities. Eligible institutions (1) grant
baccalaureate degrees in NSF-supported fields, or provide programs of instruction for students
pursuing such degrees with institutional transfers (e.g., two-year schools); (2) have
undergraduate enrollment exceeding graduate enrollment; and (3) award no more than an
average of 10 Ph.D. and/or D.Sc. degrees per year in all disciplines that NSF supports, averaged
over 2 to 5 years preceding proposal submission. Proposals involving more than one academic
institution are acceptable, but one predominantly undergraduate institution must have overall
management responsibility. Collaborations between predominantly undergraduate institutions
and other institutions may be proposed; however, most of the researchers must be at
predominantly undergraduate institutions. Autonomous campuses in a system are considered
independently, although they may be submitting their proposals through a central office. It is
therefore very important that the predominantly undergraduate campus be identified as the
performing organization on the proposal cover sheet.
B. Eligible departments (principal investigators) (1) must offer courses that qualify for
bachelor's degree credit in NSF-supportable fields and (2) may offer master's degrees, but may
not award a doctorate or offer doctoral courses and supervise doctoral research, even though the
Ph.D. is not technically awarded by that campus.
Eligible "predominantly undergraduate" institutions include U.S. two-year, four-year,
masters-level, and small doctoral colleges and universities. Eligible institutions (1) grant
baccalaureate degrees in NSF-supported fields, or provide programs of instruction for students
pursuing such degrees with institutional transfers (e.g., two-year schools); (2) have
undergraduate enrollment exceeding graduate enrollment; and (3) award no more than an
average of 10 Ph.D. and/or D.Sc. degrees per year in all disciplines that NSF supports, averaged
over 2 to 5 years preceding proposal submission. Proposals involving more than one academic
institution are acceptable, but one predominantly undergraduate institution must have overall
management responsibility. Collaborations between predominantly undergraduate institutions
and other institutions may be proposed; however, most of the researchers must be at
predominantly undergraduate institutions. Autonomous campuses in a system are considered
independently, although they may be submitting their proposals through a central office. It is
therefore very important that the predominantly undergraduate campus be identified as the
performing organization on the proposal cover sheet.
B. Eligible departments (principal investigators) (1) must offer courses that qualify for
bachelor's degree credit in NSF-supportable fields and (2) may offer master's degrees, but may
not award a doctorate or offer doctoral courses and supervise doctoral research, even though the
Ph.D. is not technically awarded by that campus.
23. CAREER Proposals Faculty Early Career Development (CAREER) Program
Eligibility
untenured assistant professors
Features
Plans for research and education for the next five years
Minimum of $500,000 for five years
Once a year
Some CAREER awardees receive PECASE awards
Check the program announcement
24. Award Supplement Opportunities Research Experiences for Teachers (RET)
Research Experiences for Undergraduates (REU)
Research Opportunity Awards (ROA)
Research Assistantships for Minority High School Students (RAMHSS)
Informal Science Education Supplements
International Research and Education Supplements
Facilitation Award for Scientists and Engineers with Disabilities
25. ROA: Research Opportunity Awards To enable faculty at predominantly undergraduate institutions, including community colleges, to pursue research as visiting scientists with NSF-supported investigators at other institutions.
Typically for summer experiences
Usually about $25,000, including indirect costs.
Supplement requests should
Clearly describe the research to be conducted by the ROA visitor
Contain a statement from the host about his/her role in the proposed research efforts
Elucidate the contribution of the proposed work to the visitor’s future research plans and impact on his/her home institution
Contain a budget with appropriate explanatory information
Include a biographical sketch for the visitor
26. REU (Research Experiences for Undergraduates) sites To initiate and conduct projects that engage a number of undergraduate students in research.
A well-defined common focus that enables a cohort experience for students.
To involve students in research who might not otherwise have the opportunity, particularly those from academic institutions where research programs are limited
Typically for summer research
27. Opportunities for Coastal and Marine Research Directorate for Biological Sciences
Division of Environmental Biology
Directorate for Geosciences
Division of Ocean Sciences
Cross-cutting programs
Biocomplexity (e.g. environmental genomics)
Special emphasis programs
Microbial Observatories and Microbial Interactions and Processes
Microbial Genome Sequencing
28. Opportunities for Undergraduate Education Advanced Technological Education (ATE)
Federal Cyber Service: Scholarships for Service (SFS)
Science, Technology, Engineering, and Mathematics Talent Expansion Program (STEP)
Teacher Preparation Continuum (TPC)
Robert Noyce Scholarship Program
29. CCLI�Course, Curriculum and Laboratory Improvement Vision:
Excellent STEM education for all undergraduates.
Goal:
Stimulate, disseminate, and institutionalize innovative developments in STEM education through the production of knowledge and the improvement of practice
Three phases
Phase 1: Exploratory Projects
Phase 2: Expansion Projects
Phase 3: Comprehensive Projects
Phases reflect the scope, scale and state Phases reflect the scope, scale and state
Scope -- number of components of the cyclic model
Scale -- number of institutions, students and faculty
State -- maturity of the proposed innovation
Phases reflect the scope, scale and state
Scope -- number of components of the cyclic model
Scale -- number of institutions, students and faculty
State -- maturity of the proposed innovation
30. Opportunities for Biomedical Research Disease related goals- Not eligible
Research with disease-related goals, including work on the etiology, diagnosis or treatment of physical or mental disease, abnormality, or malfunction in human beings or animals, is normally not supported.
Animal models of disease conditions or the development or testing of drugs or other procedures for their treatment also are not eligible for support.
Research in medical bioengineering- Eligible
Research in bioengineering with diagnosis- or treatment-related goals, that applies engineering principles to problems in biology and medicine while advancing engineering knowledge is eligible for support. Bioengineering research to aid persons with disabilities also is eligible.
32. Merit Review Criteria NSF invests in the best ideas from the most capable people, determined by competitive merit review.
The intellectual merit of the proposed activity
Creativity and originality
Potential to advancing knowledge and understanding within and across fields
Conceptualization and organization
Qualifications of investigators
Access to resources
The broader impacts of the proposed activity
Discovery while promoting teaching, training and learning
Participation of underrepresented groups
Enhancement of infrastructure for research and education
Dissemination of results to enhance scientific and technological understanding
Benefits to society
33. Ensuring a Balanced Portfolio Innovation and Creativity
Breadth of research areas
Priority areas and systems
Demographics and Diversity
Broadening participation
Institutional impact- PUI, EPSCOR, etc.
Integration of research & education
International collaborations
34. Outline NSF Information
Mission
Organization
Budget Outlook and Priorities for FY2006
Basics of NSF Funding Opportunities and Review
Strategies for Fostering Institutional Grant Success
35. Some tips and resources Tips
Identify the strengths
Map out strategies
Match with the appropriate agency
Use resources, interactions with funding agencies and strengthen individual grantsmanship skills
Resources
Individual contacts in funding agencies
Institutional programs
NSF days and Regional conference
