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Award Data
The Award database is continually updated throughout the year. As a result, data for FY24 is not expected to be complete until March, 2025.
Download all SBIR.gov award data either with award abstracts (290MB)
or without award abstracts (65MB).
A data dictionary and additional information is located on the Data Resource Page. Files are refreshed monthly.
The SBIR.gov award data files now contain the required fields to calculate award timeliness for individual awards or for an agency or branch. Additional information on calculating award timeliness is available on the Data Resource Page.
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Improved Nodule Collector Design to Mitigate Sediment Plumes
SBC: DEEP REACH TECHNOLOGY INC Topic: GSeabed mining may be the best option to fill the impending gap in terrestrial supplies for nickel, cobalt, and rare earth elements, which are increasingly used to manufacture electric vehicles and large lithium-ion batteries. Deep Reach Technology will design a novel nodule collector to minimize the impact of sediment plumes, which may disperse and cover the seabed beyond the mining area. The proj ...
SBIR Phase II 2020 Department of EnergyARPA-E -
SBIR Phase II: Disruptive Semiconductor Software Tool for Recipe Optimization for Deposition and Etching Processes
SBC: Sandbox Semiconductor Incorporated Topic: SThe broader impact/commercial potential of this Small Business Innovation Research (SBIR) Phase II project is the enablement of next generation manufacturing technologies for semiconductor devices. The deployment of novel semiconductor devices such as 3D NAND, the latest device architecture developed for flash memory, is often stymied by the development of nanomanufacturing processes. The objectiv ...
SBIR Phase II 2020 National Science Foundation -
SBIR Phase II: A New Approach for Isolating Leukocyte Sub-populations to Enable Efficient Manufacturing of Cellular Therapies
SBC: HALCYON BIOMEDICAL, INC. Topic: BTThe broader impact/commercial potential of this Small Business Innovation Research (SBIR) Phase II project will offer an improved and simpler alternative to existing equipment currently used at several stages of cell therapy manufacturing. An efficient, standardized, and scalable approach to manufacturing will accelerate the translation of lab-scale discoveries to curative, widely available therap ...
SBIR Phase II 2020 National Science Foundation -
SBIR Phase II: Microwave ablation system for creating precision directed ablation zones
SBC: Precision Microwave Inc. Topic: BMThe broader/commercial impact of this SBIR Phase II project proposes continued development of a directional microwave ablation (MWA) system. During MWA, doctors use image guidance to insert a thin needle-like applicator into a target tumor and then energize the microwave antenna embedded in the applicator’s tip to heat and kill the tumor. MWA is especially important to the large population of ca ...
SBIR Phase II 2020 National Science Foundation -
SBIR Phase II: Modified Finned Tube Heat Exchangers for Economically Purifying Produced Water
SBC: KATZ WATER TECHNOLOGIES, INC. Topic: CTThe broader impact/commercial potential of this Small Business Innovation Research (SBIR) project will improve the use of water for the oil and gas (O&G) industry, especially during hydraulic fracturing, transforming the industry into a producer of fresh water and changing produced water from its current status as a waste product to a commodity. The proposed technology creates two reusable product ...
SBIR Phase II 2020 National Science Foundation -
SBIR Phase II: Dual Element Matrix (DEM) Water Electrolyzer
SBC: AVIUM, LLC Topic: CTThe broader impact/commercial potential of this Small Business Innovation Research (SBIR) Phase II project is to make on-site hydrogen generation convenient and economically viable. Hydrogen is a chemical used widely in industry and serves an alternative fuel source for electric vehicles, increasing drive range and shortening refueling time, but adoption has been limited by the needs for refueling ...
SBIR Phase II 2020 National Science Foundation -
STTR Phase II: Scalable fabrication of stable perovskite solar panels using slot-die coating technique
SBC: FAS HOLDINGS GROUP Topic: CTThe broader impact/commercial potential of this Small Business Technology Transfer (STTR) Phase II project is to advance the development of new low-cost and high-efficiency solar cells. This process uses abundant natural resources as the raw material, using a novel technology to make parts that can be printed on plastic foils to significantly reduce manufacturing and installation costs. This proje ...
STTR Phase II 2020 National Science Foundation -
SBIR Phase II: Real-Time Nitrogen Sensor for Wastewater Treatment Optimization
SBC: MAX-IR LABS INCORPORATED Topic: CTThe broader impact/commercial potential of this Small Business Technology Transfer Research (STTR) Phase II project will be to supply nitrogen sensors for wastewater treatment process control and automation, potentially saving $600 M per year in electric energy for the U.S. municipal wastewater treatment industry. Municipal wastewater treatment processes are based on energy-intensive aeration. Cur ...
SBIR Phase II 2020 National Science Foundation -
SBIR Phase II:Polyvalent Bacteriophages as Livestock Feed Additives and Alternatives to Antibiotics for Pathogen Control and Improved Animal Performance
SBC: SENTINEL ENVIRONMENTAL GROUP, LLC Topic: BTThe broader impact of this Small Business Innovation Research (SBIR) Phase II project will be to mitigate the spread of antibiotic resistant bacteria. In the United States, antibiotic resistance is estimated to cause over 2 million illnesses, 23,000 deaths, and cost $55 billion annually. Worldwide, it causes 700,000 deaths annually, and reduces global gross domestic product by approximately 1.5% t ...
SBIR Phase II 2020 National Science Foundation -
Nanoionics Enabled Proton Conducting Ionomers
SBC: CELADYNE TECHNOLOGIES, INC. Topic: GCeladyne Technologies will develop an innovative elevated temperature proton conducting ionomer material. The team improves upon existing technology relying on acid-base chemistry in favor of an approach driven by defect chemistry and interfacial nanoionic interactions. The technology could improve efficiency in proton exchange membrane fuel cells and electrolyzers and reduce CO2 emissions.
SBIR Phase II 2020 Department of EnergyARPA-E