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FSU Research Foundation GAP Grant Program
Below are the FY 2008 Awards for the FSU Research Foundation (FSURF) GAP Program. The Program funds projects that FSU researchers and other interested parties agree will quickly improve the odds that current research results will lead to public availability of a new product or service. FSURF allocated up to $250,000 per year, beginning in FY 2006, for at least four years to provide grants under this Program. GAP projects should reach completion in a year or less. Funded tasks will be performed under the supervision of the proposing faculty member; but may include third party efforts within or outside of the Florida State University.
Please visit this page for a list of previous award periods.
| GREG DUDLEY Awarded $46,000 |
Synthesis of Organic Compounds Extend the capability and usefulness of a family of organic reagents that have simplified and promise to enhance the yield in synthesis of important, but chemically challenging target drugs with the complexity of paclitaxel and discodermalide. |
| BRUCE LOCKE Awarded $49,000 |
Hydrogen Peroxide Plasma Generator Create and test a prototype of a portable, pulsed arc generator for a cold plasma /hydrogen peroxide stream to provide hard surface disinfection. Hydrogen peroxide is generated from water within the plasma arc, and electric power can be taken from a typical household outlet or a portable generator. |
| DAVID WHALLEY Awarded $44,673 |
Lookahead Fetch Engine Introduce a small look-ahead cache into the architecture of new micro processors to reduce power consumption and/or instruction fetch time. The investigators have obtained the cooperation of a major computer company for this test and hope to see wide adoption of their invention. |
| DR. WEI YANG Awarded $50,000 |
Drug and Protein Design System Perform blind testing in collaboration with Biogen-Idec Corp. to confirm the effectiveness of his "FEB Designer" computer program suite in predicting the structure of molecules that bind optimally to receptors on target proteins, thus accelerating the development of safe and effective pharmaceuticals. |
| DR. JIM ZHENG Awarded $47,700 |
Hybrid Fuel Cell Fabricate and test a methanol fuel cell with an integral capacitance capability, using an anode structure that supports its platinum catalyst on a hydrated ruthenium oxide structure. The resulting hybrid fuel cell can supply both continuous and surge currents without elaborate external capacitors and control electronics. |
