The U.S. National Science Foundation (NSF) has launched a groundbreaking funding opportunity under its Small Business Innovation Research (SBIR) and Small Business Technology Transfer (STTR) programs to accelerate the development of next-generation scientific instrumentation, experimental platforms, and enabling technologies that can transform the future of scientific discovery.

Through this newly introduced pilot emphasis area, NSF is seeking visionary startups and small businesses capable of creating the tools, equipment, and technological infrastructure necessary to power future breakthroughs in science, engineering, artificial intelligence, advanced research, and emerging technologies.

The initiative represents a significant investment in America’s scientific and technological future, with up to $40 million in anticipated funding across multiple award mechanisms and opportunities for exceptional projects to access Strategic Breakthrough awards of up to $30 million.

Important Deadlines

Applications are accepted according to the following proposal deadlines:

July 27, 2026
November 4, 2026
March 4, 2027
July 7, 2027
Annual recurring deadlines thereafter

Applicants should note that receiving an invitation through the NSF Project Pitch process is mandatory before submitting Phase I or Fast-Track proposals.

About the NSF Scientific Instrumentation Pilot Program

Scientific discovery increasingly depends on sophisticated tools capable of generating, measuring, analyzing, and interpreting enormous amounts of data. As fields such as artificial intelligence, biotechnology, quantum science, advanced materials, and space technologies continue to evolve, researchers require more advanced instruments and platforms than ever before.

Recognizing this need, NSF has created a specialized SBIR/STTR pilot emphasis area focused specifically on supporting startups and small businesses that are developing:

Next-generation scientific instrumentation
Novel experimental platforms
Advanced laboratory technologies
Research-enabling equipment
AI-enabled scientific discovery tools
Scientific data-generation systems
Emerging research infrastructure technologies
High-impact scientific hardware innovations

The program seeks to ensure that the United States remains at the forefront of scientific innovation by supporting companies building the tools that make future discoveries possible.

Why This NSF Funding Opportunity Matters

Many breakthrough scientific technologies require years of development before they become commercially viable. Traditional investors may hesitate to support such innovations due to long development timelines or niche scientific markets.

The NSF Scientific Instrumentation Pilot addresses this challenge by providing non-dilutive funding to help startups bridge critical development stages without giving up ownership or equity.

A major advantage of the program is that:

NSF takes no equity in funded companies.
Awardees retain full ownership of their intellectual property.
Funding supports high-risk, high-reward innovations.
Startups gain credibility that can attract future investors and partners.
Companies can advance technologies that may otherwise struggle to secure funding.

Funding Opportunities Available

Phase I Funding

Phase I awards support early-stage research and development activities.

Funding includes:

Up to $305,000
Project duration of 6–18 months
Includes direct and indirect costs
Includes Technical and Business Assistance (TABA)
Supports participation in Innovation Corps (I-Corps)

Phase I funding helps startups demonstrate technical feasibility and validate innovative concepts.

Phase II Funding

Companies that successfully complete Phase I projects can apply for Phase II support.

Benefits include:

Up to $1,250,000 in funding
Approximately 24-month project duration
Continued research and development support
Expanded commercialization activities
Business growth and market validation opportunities

Phase II enables startups to move technologies closer to commercial readiness.

Fast-Track Funding

Fast-Track funding combines Phase I and Phase II support into a single application pathway.

Funding includes:

Up to $400,000 for Phase I
Up to $1,155,000 for Phase II
Combined funding exceeding $1.5 million
Accelerated development timeline

This option is designed for projects with strong technical and commercial potential.

Phase IIB Supplemental Funding

Existing Phase II awardees may receive additional support through Phase IIB supplements.

Available funding:

$50,000 to $500,000

The objective is to accelerate commercialization and leverage matching investments from customers or investors.

Technology Enhancement for Commercial Partnerships (TECP)

This supplemental funding mechanism supports additional R&D activities required by commercial partners.

Benefits include:

Up to 20% of a Phase II award amount
Supports proof-of-concept activities
Enhances commercial readiness
Encourages partnerships with industry stakeholders

Strategic Breakthrough Awards

One of the most significant opportunities under the program is the Strategic Breakthrough Award.

Exceptional Phase II awardees may become eligible for:

Up to $30 million in funding

These awards are designed to help companies overcome the “valley of death” between prototype development and full-scale commercialization.

Areas of Innovation Encouraged

NSF is particularly interested in technologies that advance scientific discovery and strengthen research infrastructure.

Potential areas include:

Artificial Intelligence Research Tools

AI-enabled experimentation platforms
Automated scientific discovery systems
Intelligent laboratory equipment
Advanced computational instrumentation

Advanced Scientific Equipment

High-performance measurement technologies
Precision analytical instruments
Advanced imaging systems
Scientific sensing platforms

Emerging Research Technologies

Quantum science instrumentation
Biotechnology tools
Advanced materials testing equipment
Environmental monitoring systems

Experimental Platforms

Novel research environments
Data generation infrastructure
Laboratory automation systems
Scientific workflow technologies

How Applications Are Evaluated

NSF evaluates proposals using three core criteria.

1. Intellectual Merit

Reviewers assess:

Scientific and technical innovation
Novelty of the proposed technology
Potential to advance knowledge
Technical feasibility

2. Broader Impacts

Reviewers examine:

Benefits to society
Contributions to scientific advancement
Workforce development potential
National competitiveness

3. Commercial Impact

Reviewers evaluate:

Market opportunity
Commercialization strategy
Business viability
Potential economic impact

Successful applicants must demonstrate strength across all three areas.

Eligibility Requirements

To qualify for NSF SBIR/STTR funding, applicants must meet several requirements.

Company Requirements

Applicants must:

Be a qualifying U.S. small business concern
Have 500 employees or fewer (including affiliates)
Comply with SBIR/STTR regulations
Meet NSF eligibility requirements

Principal Investigator Requirements

The Principal Investigator must:

Be primarily employed by the small business
Work at least 51% of their time with the company
Have legal authorization to work in the United States
Commit the required project effort

Notably, NSF does not require a Ph.D. or other advanced degree for Principal Investigators.

STTR-Specific Requirements

STTR applicants must:

Partner with a nonprofit research institution
Include a required co-Principal Investigator from the research institution
Meet all STTR collaboration requirements

Application Process

The application process begins with a mandatory Project Pitch.

Step 1: Submit a Project Pitch

Potential applicants must submit a Project Pitch describing their innovation.

Step 2: Receive NSF Invitation

Only companies receiving an official invitation may submit a Phase I or Fast-Track proposal.

Step 3: Prepare Full Proposal

Applicants prepare detailed proposals through Research.gov.

Step 4: Merit Review

Proposals undergo review by NSF program officers and external experts.

Step 5: Funding Decision

Successful applicants receive NSF funding and gain access to commercialization support resources.

Benefits Beyond Funding

Award recipients gain more than financial support.

Additional advantages include:

National recognition from NSF
Enhanced investor credibility
Commercialization support
Business development assistance
Access to NSF innovation networks
Stronger intellectual property positioning
Opportunities for follow-on funding
Strategic partnerships with customers and investors

Building the Future of Scientific Discovery

The NSF SBIR/STTR Scientific Instrumentation Pilot represents one of the most ambitious federal efforts to support the technologies that enable scientific breakthroughs. By investing in startups developing cutting-edge scientific equipment, experimental platforms, and AI-driven research tools, NSF aims to strengthen the foundations of future innovation.

For entrepreneurs, researchers, engineers, and technology companies working on transformative scientific instrumentation, this funding opportunity provides a rare chance to secure substantial non-dilutive funding while contributing to the next era of discovery, innovation, and economic growth.

Apply here

NSF 26-510: Click here

NSF 26-511: Click here