Grant Proposal Requirements
Comprehensive requirements and formatting guidelines for major federal and private foundation grant programs.
Overview
Grant Proposal Requirements
Comprehensive requirements and formatting guidelines for major federal and private foundation grant programs.
Last Updated: 2024
NSF (National Science Foundation)
Overview
Agency: National Science Foundation
Typical Award: $100K-$500K per year, 3-5 years
Success Rate: 20-25% (varies by program)
Review Criteria: Intellectual Merit + Broader Impacts (equally weighted)
NSF Standard Grant Proposal
Page Limits (NSF PAPPG - Proposal & Award Policies & Procedures Guide):
| Component | Page Limit | Font | Spacing |
|---|---|---|---|
| Project Summary | 1 page | Any readable, 10pt+ | Any |
| Project Description | 15 pages | Times Roman 11pt or similar | Single |
| References Cited | No limit | Times Roman 11pt | Single |
| Biographical Sketch | 3 pages per person | Times Roman 11pt | Single |
| Budget Justification | 3-5 pages | Any readable | Any |
| Current & Pending Support | No limit | Times Roman 11pt | Single |
| Facilities, Equipment | 2 pages | Any readable | Any |
| Data Management Plan | 2 pages | Any readable | Any |
Margins: 1 inch (2.54 cm) on all sides (strictly enforced)
NSF Project Summary (1 page)
Required Sections (clearly labeled):
-
Overview (1-2 paragraphs)
- Concise description of research activity
- Objectives and methods
-
Intellectual Merit (1 paragraph)
- How project advances knowledge
- Innovation and transformative potential
- Qualifications of research team
-
Broader Impacts (1 paragraph)
- Benefits to society
- Broadening participation
- Dissemination and outreach
Format: Can be full-page text or sectioned
Audience: Non-specialists (broad scientific community)
Template: assets/grants/nsf_project_summary.tex
NSF Project Description (15 pages)
Typical Structure:
-
Introduction/Background (2-3 pages)
- Current state of knowledge
- Research gap
- Preliminary work/feasibility
- Team qualifications
-
Research Plan (8-10 pages)
- Objectives and hypotheses
- Methods and approach
- Timeline and milestones
- Expected outcomes
-
Broader Impacts (1-2 pages)
- Educational activities
- Broadening participation (underrepresented groups)
- Dissemination (publications, conferences, public outreach)
- Societal benefits
-
Results from Prior NSF Support (1 page, if applicable)
- Required if PI has had NSF support in past 5 years
- Intellectual merit and broader impacts of prior work
- Publications from prior NSF grants
Key Requirements:
- Intellectual Merit and Broader Impacts integrated throughout
- Figures and tables allowed (count toward page limit)
- Citations to references (use References Cited section)
Template: assets/grants/nsf_proposal_template.tex
NSF Biographical Sketch (3 pages)
Required Sections:
- Professional Preparation: Institutions, degrees, fields
- Appointments: Current and previous positions
- Products: Up to 5 most relevant, up to 5 other significant products
- Can include publications, datasets, software, patents
- Synergistic Activities: Up to 5 examples of impact beyond research
Format:
- NSF template must be used (SciENcv or NSF-approved format)
- No longer uses "Publications" but "Products"
NSF Broader Impacts
NSF-Recognized Categories (demonstrate ≥1):
- Advance discovery while promoting teaching/learning
- Broaden participation of underrepresented groups
- Disseminate broadly to enhance scientific/technological understanding
- Benefits to society (economic, health, environment, national security)
- Develop scientific workforce and infrastructure
Best Practices:
- Be specific with measurable outcomes
- Explain how activities will be assessed
- Integrate with research (don't treat as "add-on")
- Budget for broader impacts activities
Examples:
- K-12 outreach programs
- Curriculum development
- Training underrepresented students
- Public science communication
- Open-source software development
NSF Budget
Typical Categories:
- Senior Personnel: PI, co-PIs (% effort, salary)
- Other Personnel: Postdocs, graduate students, undergrads
- Fringe Benefits: Institutional rates
- Equipment: Items >$5,000
- Travel: Domestic and foreign
- Participant Support: Workshops, conferences (separate category)
- Other Direct Costs: Materials, publication, subawards
- Indirect Costs: Institutional F&A rate
Budget Justification: Explain need for each item
NSF Data Management Plan (2 pages)
Required Content:
- Types of data produced
- Standards for data format and metadata
- Policies for access and sharing
- Policies for re-use and redistribution
- Plans for archiving and preservation
Acceptable Approaches:
- Deposit in domain-specific repository
- Institutional repository
- Data available upon request (with restrictions justification)
NSF Review Process
Review Criteria (equally weighted):
-
Intellectual Merit:
- What is the potential to advance knowledge?
- How well-conceived and organized?
- Qualifications of PI and team?
- Availability of resources?
-
Broader Impacts:
- What are the potential benefits to society?
- How well-suited to achieve broader impacts?
Panel Review: Proposals reviewed by panel of experts
Timeline: Typically 6 months from deadline to award decision
NSF LaTeX Templates
- Full Proposal:
assets/grants/nsf_proposal_template.tex - Project Summary:
assets/grants/nsf_project_summary.tex - Biographical Sketch: Use NSF SciENcv or template
Resources:
- NSF PAPPG: https://www.nsf.gov/publications/pub_summ.jsp?ods_key=pappg
- NSF Fastlane: https://www.fastlane.nsf.gov/
NIH (National Institutes of Health)
Overview
Agency: National Institutes of Health
Funding Mechanisms:
- R01: Research Project Grant (most common)
- R21: Exploratory/Developmental Research Grant
- K Awards: Career Development Awards Success Rate: 10-20% (varies by institute and mechanism)
NIH R01 Research Grant
Page Limits (Research Strategy):
| Component | Page Limit | Font | Spacing |
|---|---|---|---|
| Specific Aims | 1 page | Arial 11pt minimum | Any |
| Research Strategy | 12 pages | Arial 11pt minimum | 0.5 inch margins minimum |
| - Significance | Part of 12 | ||
| - Innovation | Part of 12 | ||
| - Approach | Part of 12 | ||
| Bibliography | No limit | Arial 11pt | |
| Biographical Sketch | 5 pages per person | Arial 11pt |
Margins: 0.5 inch minimum (all sides)
Paper Size: Letter (8.5 × 11 inches)
NIH Specific Aims Page (1 page)
THE MOST CRITICAL COMPONENT
Structure (recommended):
-
Opening paragraph (2-3 sentences)
- Hook: Significance of problem
- Gap: What's not known
-
Long-term goal (1 sentence)
- Overarching research vision
-
Objective (1-2 sentences)
- What this proposal will accomplish
- Central hypothesis
-
Rationale (2-3 sentences)
- Why you expect success
- Preliminary data supporting hypothesis
-
Specific Aims (3 aims typical)
- Aim 1: [Title]. [1-2 sentence description. Working hypothesis. Expected outcome.]
- Aim 2: [Title]. [1-2 sentence description. Working hypothesis. Expected outcome.]
- Aim 3: [Title]. [1-2 sentence description. Working hypothesis. Expected outcome.]
-
Payoff paragraph (2-3 sentences)
- Impact and significance
- Innovation
- Future directions
Best Practices:
- Crystal clear, compelling narrative
- State hypothesis explicitly
- Explain expected outcomes
- Show innovation and impact
Template: assets/grants/nih_specific_aims.tex
NIH Research Strategy (12 pages)
Required Sections:
1. Significance (typically 2-3 pages)
- Importance: Critical barrier to progress
- Knowledge gap: What's not known
- Impact: How project advances field
- Rigor: Scientific premise/prior work
- References: Cite key literature
2. Innovation (typically 1-2 pages)
- Novelty: New concepts, approaches, methods
- Challenge paradigms: Shift thinking
- Refined/new methodologies: Technical innovation
- Novel applications: Existing tools in new ways
3. Approach (typically 7-9 pages)
For Each Aim:
- Rationale: Why this aim
- Experimental design: Detailed methods
- Expected outcomes: What results mean
- Potential problems & alternatives: Mitigation strategies
- Rigor and reproducibility: Controls, replication, statistics
- Timeline: When each aim completed
Additional Approach Content:
- Preliminary data (critical for R01)
- Power analyses for sample sizes
- Statistical analysis plans
- Rigor of prior research cited
NIH Biographical Sketch (5 pages)
Sections (NIH format):
- Personal Statement (4 sentences explaining why you're suited)
- Positions, Honors, and Scientific Appointments
- Contributions to Science (Up to 5 contributions, up to 4 pubs each)
- Research Support (current and completed grants, overlap checked)
Format: Must use NIH template (fillable PDF or format page)
NIH Review Criteria
Scored Criteria (1-9 scale, 1=best):
- Significance: Importance, impact
- Investigator(s): Qualifications, track record
- Innovation: Novel concepts, methods
- Approach: Feasibility, rigor, design
- Environment: Institutional support, resources
Additional Considerations (not scored but noted):
- Vertebrate animals
- Biohazards
- Human subjects protections
- Inclusion of women, minorities, children
- Budget appropriateness
Overall Impact Score: 1-9 (synthesizes all criteria)
NIH R21 (Exploratory Grant)
Key Differences from R01:
- Research Strategy: 6 pages (vs. 12 for R01)
- Duration: 2 years maximum
- Budget: $275K total costs over 2 years
- Preliminary data: Not required (exploratory nature)
- Purpose: High-risk, high-reward projects; new directions
When to Choose R21 vs. R01:
- R21: Early-stage, limited preliminary data, high-risk
- R01: Established line of research, strong preliminary data
NIH K Awards (Career Development)
Mechanisms:
- K01: Mentored Research Scientist Development Award
- K08: Mentored Clinical Scientist Research Career Development Award
- K23: Mentored Patient-Oriented Research Career Development Award
- K99/R00: Pathway to Independence Award (postdoc to faculty)
Key Components:
- Career Development Plan: Training goals, timeline
- Research Plan: 6-12 pages (mechanism-dependent)
- Mentor(s): Letters of support, mentoring plan
- Institutional Commitment: Environment, resources
- Protected Time: 75% research effort typical
NIH Budget
Modular vs. Detailed:
- Modular: ≤$250K direct costs per year (25K increments)
- Detailed: >$250K direct costs per year
Modular Budget: Only need budget justification for personnel, consortium, equipment >$25K
Budget Period: Year-by-year (usually 5 years for R01)
NIH LaTeX Templates
- R01 Full Proposal:
assets/grants/nih_r01_template.tex - Specific Aims:
assets/grants/nih_specific_aims.tex - Biographical Sketch: Use NIH fillable PDF or format page
Resources:
- NIH Application Guide: https://grants.nih.gov/grants/how-to-apply-application-guide.html
- SF424 Forms: https://grants.nih.gov/grants/how-to-apply-application-guide/forms-e/general-forms-e.pdf
DOE (Department of Energy)
Overview
Agency: U.S. Department of Energy
Offices:
- Office of Science: Basic research (BES, BER, ASCR, NP, HEP, FES)
- ARPA-E: High-risk, high-reward energy technologies
- EERE: Energy efficiency and renewable energy
Typical Award: $200K-$1M per year, 3 years
Success Rate: 10-30% (varies by program)
DOE Office of Science Proposal
Page Limits (typical, varies by FOA):
| Component | Page Limit | Format |
|---|---|---|
| Project Narrative | 10-20 pages | Times 11pt, 1" margins |
| References | No limit | |
| Budget Justification | 3-5 pages | |
| Biographical Sketches | 2-3 pages each | |
| Current & Pending | No limit | |
| Facilities & Resources | No limit | |
| Data Management Plan | 2 pages |
DOE Project Narrative Structure
Typical Sections:
-
Background and Significance (2-3 pages)
- Energy relevance
- Current state of knowledge
- Research need
-
Preliminary Work (1-2 pages)
- Team's qualifications
- Relevant prior results
-
Research Plan (10-15 pages)
- Objectives: Clear goals
- Technical approach: Detailed methods
- Milestones and deliverables: Specific, measurable
- Timeline: Gantt chart common
- Team and management: Roles, collaboration
-
Broader Impacts (1-2 pages)
- Workforce development
- Technology transfer potential
- Publications and dissemination
DOE-Specific Requirements
Energy Relevance: Must clearly tie to DOE mission
- Basic science: Fundamental understanding for energy applications
- Applied: Energy efficiency, renewable energy, grid, storage
Technology Readiness Levels (TRLs): Often required to specify
- TRL 1-3: Basic research, proof of concept
- TRL 4-6: Component/subsystem validation
- TRL 7-9: System demonstration, deployment
National Laboratory Collaboration: Encouraged
- Include lab scientists as co-PIs or collaborators
- Letter of collaboration from lab
Cost Sharing: Sometimes required (check FOA)
- Can be in-kind (equipment, time)
- Must be documented
DOE Budget Considerations
Allowable Costs:
- Personnel (salaries, benefits)
- Equipment
- Travel (especially to DOE national labs)
- Materials and supplies
- Subcontracts
- Indirect costs (negotiated F&A rate)
Unallowable:
- Construction
- Entertainment
- Some indirect costs (depends on institution type)
DOE LaTeX Template
Template: assets/grants/doe_proposal_template.tex
Resources:
- DOE Office of Science Funding: https://science.osti.gov/grants
- EERE Funding: https://www.energy.gov/eere/funding/eere-funding-opportunities
DARPA (Defense Advanced Research Projects Agency)
Overview
Agency: Defense Advanced Research Projects Agency (DoD)
Mission: High-risk, high-reward research for national security
Typical Award: $500K-$5M per year, 2-4 years
Success Rate: 5-15% (highly competitive)
DARPA BAA (Broad Agency Announcement) Response
Page Limits (typical, varies