Award Data

Half of the world’s population lives in urban watersheds. In order to predict how these watersheds will behave under current and future weather dynamics (e.g. if , how and where flooding would occur due to intense rainfall), we need dense measurements of river stage and river velocity. Current instruments are too expensive to deploy in the quantities needed to provide these dense measurements. A ...

The broader impact of this Small Business Innovation Research (SBIR) Phase I project is to test an innovative new approach to generating industrially valuable microorganisms. If successful, the new approach will be demonstrated by improving the ability of an engineered bacterium to convert components of biomass into fuel. The benefit of that research will be to help develop a technology that can c ...

The broader impact of this Small Business Innovation Research (SBIR) Phase I project is to reimagine bio-manufacturing with a novel platform technology that could boost the yields of many products, including food additives, biomaterials precursors, biofuels, and pharmaceuticals. The technological advancement addresses a fundamental issue that limits conventional bio-fermentation, which is that pro ...

The broader impact/commercial potential of this Small Business Innovation Research (SBIR) Phase I project is a novel hearing protection device which reduces the societal cost of noise induced hearing loss. Noise induced hearing loss is the one of the most prevalent occupational injuries in both US industry and the military, affecting more than 10 million workers at a total preventable economic cos ...

C56-40v-272647Next-generation nuclear power plants can provide a large-scale source of environmentally benign power generation while improving safety and minimizing proliferation risks. For best performance, these reactors will require large numbers of uranium alloy fuel slugs produced with metallurgical properties that enable reliable, long-term operation. No method currently exists for high-volu ...

C56-41b-273026Welded stainless steel canisters at near-marine sites that contain spent nuclear fuel (SNF) have been found with salts on their outer surface that can produce an aggressive chemical environment. These conditions could lead to pitting, stress corrosion cracking (SCC), and potential release of radioactive materials. We propose to develop an innovative process and device for mitigating ...

1. Problem StatementCurrent industrial-scale rare earth element separation technologies are based on solvent extraction schemes which produce large amounts of undesirable chemical waste, including the loss of volatile organic solvents and reagents employed in the treatment of feed streams. These concerns have severely limited the development of U.S.-based rare earth element separation facilities. ...

Half of the world’s population lives in urban watersheds. In order to predict how these watersheds will behave under current and future weather dynamics (e.g. if , how and where flooding would occur due to intense rainfall), we need dense measurements of river stage and river velocity. Current instruments are too expensive to deploy in the quantities needed to provide these dense measurements. A ...

The broader impact/commercial potential of this Small Business Innovation Research (SBIR) Phase II project is improved access to state-of-the-art molecular diagnostic technologies in areas of significant unmet clinical need, such as women’s health. During the NSF I-Corps Program, the team identified urinary tract infections (UTIs) as pressing problem due to the currently lengthy clinical workflo ...

The broader impact of this Small Business Technology Transfer (STTR) Phase II project involves continued development of technology to extend the therapeutic window of cell-based tissue regeneration therapies. This technology could significantly enhance the scientific understanding of cellular therapies and enable the healing of injuries more rapidly and less invasively than current techniques. A s ...