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Visible Light Photocatalysis

$272,950R01FY2013GMNIH

University Of Wisconsin-Madison, Madison WI

Investigators

Linked publications & trials

Abstract

DESCRIPTION (provided by applicant): Photochemical methods are unique because (1) they enable the synthesis of unusual, strained molecular frameworks that cannot be synthesized by other methods, and (2) they use light, which is cleaner, less expensive, and more renewable than conventional chemical reagents. Nevertheless, pharmaceutical companies rarely take advantage of photochemical synthesis because the need for specialized photochemical equipment is an impractical impediment and because very few methods to control the stereochemistry of photochemical reactions exist. Therefore, the structures of the molecules that are produced by photochemical synthesis have essentially not been examined as possible drug candidates. This Proposal describes an innovative new strategy to perform photochemical reactions using readily available sources of visible light such as a consumer light bulb or ambient sunlight instead of a specialized photochemical reactor. Research will proceed in two phases: 1. Development of a photocatalytic system that is able to efficiently convert visible light energy into chemical reactivity with high levels of stereochemical control. 2. Application of this system to a variety of new chemical reactions that produce unusual molecular structures. These methods are powerful, robust, and simple to perform on large, industrially relevant scales. Thus, the research described in this proposal will significantly impact both the academic chemistry community and the broader community of medicinal chemists who require new methods of molecule construction to discover the next generation of life-saving drugs.

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