research-grants — quality + safety report

---
name: research-grants
description: Write competitive research proposals for NSF, NIH, DOE, DARPA, and Taiwan NSTC. Agency-specific formatting, review criteria, budget preparation, broader impacts, significance statements, innovation narratives, and compliance with submission requirements.
allowed-tools: Read Write Edit Bash
license: MIT license
compatibility: Works in Agent Skills-compatible hosts. Grant-writing guidance needs no network; optional figures via the scientific-schematics skill require OPENROUTER_API_KEY and outbound API access.
metadata:
  version: "1.1"
  skill-author: K-Dense Inc.
---

# Research Grant Writing

## Overview

Research grant writing is the process of developing competitive funding proposals for federal agencies and foundations. Master agency-specific requirements, review criteria, narrative structure, budget preparation, and compliance for NSF (National Science Foundation), NIH (National Institutes of Health), DOE (Department of Energy), DARPA (Defense Advanced Research Projects Agency), and Taiwan's NSTC (National Science and Technology Council) submissions.

**Critical Principle: Grants are persuasive documents that must simultaneously demonstrate scientific rigor, innovation, feasibility, and broader impact.** Each agency has distinct priorities, review criteria, formatting requirements, and strategic goals that must be addressed.

## When to Use This Skill

This skill should be used when:
- Writing research proposals for NSF, NIH, DOE, DARPA, or NSTC programs
- Preparing project descriptions, specific aims, or technical narratives
- Developing broader impacts or significance statements
- Creating research timelines and milestone plans
- Preparing budget justifications and personnel allocation plans
- Responding to program solicitations or funding announcements
- Addressing reviewer comments in resubmissions
- Planning multi-institutional collaborative proposals
- Writing preliminary data or feasibility sections
- Preparing biosketches, CVs, or facilities descriptions

## Visual Enhancement (Optional)

Strong proposals often include 1–3 figures (timelines, workflow diagrams, preliminary data). Figures support review but are not a substitute for clear aims and methods.

**When figures help:**
- Research methodology and workflow diagrams
- Project timeline or Gantt charts
- Conceptual framework or system architecture (technical proposals)
- Experimental design flowcharts
- Broader impacts activity diagrams
- NSTC CM03 research architecture diagrams (often expected)

**How to create figures:**
- **Preferred:** Use the **scientific-schematics** skill (`--doc-type grant`) for AI-generated diagrams from a natural-language description
- **Alternative:** Build figures in your usual tools (matplotlib, Illustrator, PowerPoint, etc.)

From the `scientific-schematics` skill directory, with `OPENROUTER_API_KEY` set:

```bash
python scripts/generate_schematic.py "project timeline with Year 1-3 milestones" -o figures/timeline.png --doc-type grant
```

**Disclosure:** AI schematic generation sends your prompt to [OpenRouter](https://openrouter.ai/) (a third-party API). Do not include unpublished sensitive details unless that transmission is appropriate for your project.

---

## Agency-Specific Overview

### NSF (National Science Foundation)
**Mission**: Promote the progress of science and advance national health, prosperity, and welfare

**Key Features**:
- Follow [PAPPG 24-1](https://www.nsf.gov/policies/pappg) (effective May 20, 2024) unless a solicitation overrides it
- Intellectual Merit + Broader Impacts (equally weighted)
- 15-page project description limit (most programs; includes Results from Prior NSF Support, max 5 pages)
- Emphasis on education, diversity, and societal benefit
- Collaborative research encouraged
- Open data and open science emphasis
- Merit review process with panel + ad hoc reviewers

### NIH (National Institutes of Health)
**Mission**: Enhance health, lengthen life, and reduce illness and disability

**Key Features**:
- Specific Aims (1 page) + Research Strategy (12 pages for R01)
- Significance, Innovation, Approach as core review criteria
- Preliminary data typically required for R01s
- Emphasis on rigor, reproducibility, and clinical relevance
- Modular budgets ($250K increments) for most R01s
- Multiple resubmission opportunities

### DOE (Department of Energy)
**Mission**: Ensure America's security and prosperity through energy, environmental, and nuclear challenges

**Key Features**:
- Focus on energy, climate, computational science, basic energy sciences
- Often requires cost sharing or industry partnerships
- Emphasis on national laboratory collaboration
- Strong computational and experimental integration
- Energy innovation and commercialization pathways
- Varies by office (ARPA-E, Office of Science, EERE, etc.)

### DARPA (Defense Advanced Research Projects Agency)
**Mission**: Make pivotal investments in breakthrough technologies for national security

**Key Features**:
- High-risk, high-reward transformative research
- Focus on "DARPA-hard" problems (what if true, who cares)
- Emphasis on prototypes, demonstrations, and transition paths
- Often requires multiple phases (feasibility, development, demonstration)
- Strong project management and milestone tracking
- Teaming and collaboration often required
- Varies dramatically by program manager and BAA (Broad Agency Announcement)

### NSTC (National Science and Technology Council - Taiwan)
**Mission**: Advance scientific breakthrough, industrial application, and societal impact in Taiwan.

**Key Features**:
- **CM03 Form**: The core technical proposal format.
- **Bilingual**: Abstract required in both Chinese and English.
- **Innovation & Feasibility**: Primary review focus.
- **Preliminary Data**: Highly critical for credibility.
- **Research Architecture Diagram**: A mandatory visual element for clarity.

## Core Components of Research Proposals

### 1. Executive Summary / Project Summary / Abstract

Every proposal needs a concise overview that communicates the essential elements of the research to both technical reviewers and program officers.

**Purpose**: Provide a standalone summary that captures the research vision, significance, and approach

**Length**: 
- NSF: 1 page (Project Summary with separate Overview, Intellectual Merit, Broader Impacts)
- NIH: 30 lines (Project Summary/Abstract)
- DOE: Varies (typically 1 page)
- DARPA: Varies (often 1-2 pages)

**Essential Elements**:
- Clear statement of the problem or research question
- Why this problem matters (significance, urgency, impact)
- Novel approach or innovation
- Expected outcomes and deliverables
- Qualifications of the team
- Broader impacts or translational pathway

**Writing Strategy**:
- Open with a compelling hook that establishes importance
- Use accessible language (avoid jargon in opening sentences)
- State specific, measurable objectives
- Convey enthusiasm and confidence
- Ensure every sentence adds value (no filler)
- End with transformative vision or impact statement

**Common Mistakes to Avoid**:
- Being too technical or detailed (save for project description)
- Failing to articulate "why now" or "why this team"
- Vague objectives or outcomes
- Neglecting broader impacts or significance
- Generic statements that could apply to any proposal

### 2. Project Description / Research Strategy

The core technical narrative that presents the research plan in detail.

**Structure Varies by Agency:**

**NSF Project Description** (typically 15 pages):
- Introduction and background
- Research objectives and questions
- Preliminary results (if applicable)
- Research plan and methodology
- Timeline and milestones
- Broader impacts (integrated throughout or separate section)
- Prior NSF support (if applicable)

**NIH Research Strategy** (12 pages for R01):
- Significance (why the problem matters)
- Innovation (what's novel and transformative)
- Approach (detailed research plan)
  - Preliminary data
  - Research design and methods
  - Expected outcomes
  - Potential problems and alternative approaches

**DOE Project Narrative** (varies):
- Background and significance
- Technical approach and innovation
- Qualifications and experience
- Facilities and resources
- Project management and timeline

**DARPA Technical Volume** (varies):
- Technical challenge and innovation
- Approach and methodology
- Schedule and milestones
- Deliverables and metrics
- Team qualifications
- Risk assessment and mitigation

For detailed agency-specific guidance, refer to:
- `references/nsf_guidelines.md`
- `references/nih_guidelines.md`
- `references/doe_guidelines.md`
- `references/darpa_guidelines.md`
- `references/nstc_guidelines.md`

### 3. Specific Aims (NIH) or Objectives (NSF/DOE/DARPA)

Clear, testable goals that structure the research plan.

**NIH Specific Aims Page** (1 page):
- Opening paragraph: Gap in knowledge and significance
- Long-term goal and immediate objectives
- Central hypothesis or research question
- 2-4 specific aims with sub-aims
- Expected outcomes and impact
- Payoff paragraph: Why this matters

**Structure for Each Aim:**
- Aim statement (1-2 sentences, starts with action verb)
- Rationale (why this aim, preliminary data support)
- Working hypothesis (testable prediction)
- Approach summary (brief methods overview)
- Expected outcomes and interpretation

**Writing Strategy**:
- Make aims independent but complementary
- Ensure each aim is achievable within timeline and budget
- Provide enough detail to judge feasibility
- Include contingency plans or alternative approaches
- Use parallel structure across aims
- Clearly state what will be learned from each aim

For detailed guidance, refer to `references/specific_aims_guide.md`.

### 4. Broader Impacts (NSF) / Significance (NIH)

Articulate the societal, educational, or translational value of the research.

**NSF Broader Impacts** (critical component, equal weight with Intellectual Merit):

NSF explicitly evaluates broader impacts. Address at least one of these areas:
1. **Advancing discovery and understanding while promoting teaching, training, and learning**
   - Integration of research and education
   - Training of students and postdocs
   - Curriculum development
   - Educational materials and resources

2. **Broadening participation of underrepresented groups**
   - Recruitment and retention strategies
   - Partnerships with minority-serving institutions
   - Outreach to underrepresented communities
   - Mentoring programs

3. **Enhancing infrastructure for research and education**
   - Shared facilities or instrumentation
   - Cyberinfrastructure and data resources
   - Community-wide tools or databases
   - Open-source software or methods

4. **Broad dissemination to enhance scientific and technological understanding**
   - Public outreach and science communication
   - K-12 educational programs
   - Museum exhibits or media engagement
   - Policy briefs or stakeholder engagement

5. **Benefits to society**
   - Economic impact or commercialization
   - Health, environment, or national security benefits
   - Informed decision-making
   - Workforce development

**Writing Strategy for NSF Broader Impacts**:
- Be specific with concrete activities, not vague statements
- Provide timeline and milestones for broader impacts activities
- Explain how impacts will be measured and assessed
- Connect to institutional resources and existing programs
- Show commitment through preliminary efforts or partnerships
- Integrate with research plan (not tacked on)

**NIH Significance**:
- Addresses important problem or critical barrier to progress
- Improves scientific knowledge, technical capability, or clinical practice
- Potential to lead to better outcomes, interventions, or understanding
- Rigor of prior research in the field
- Alignment with NIH mission and institute priorities

For detailed guidance, refer to `references/broader_impacts.md`.

###

… (truncated)