Controlling Reaction Kinetics and Pathway via Dielectric Relaxation of Complex Media

Neal Woodbury

Controlling Reaction Kinetics and Pathway via Dielectric Relaxation of Complex Media

Arizona State University

Research output: Patent

Abstract

Through careful study of the dynamics of photosynthesis reaction centers, we have developed a methodology for creating light initiated reactions in specific media that results in very little dependence of the reaction on either the conditions (temperatures, etc.) or the detailed thermodynamics of the reactions sensitive to conformational changes in the solvent.

Original language	English (US)
State	Published - May 1 2006

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title = "Controlling Reaction Kinetics and Pathway via Dielectric Relaxation of Complex Media",

abstract = "Through careful study of the dynamics of photosynthesis reaction centers, we have developed a methodology for creating light initiated reactions in specific media that results in very little dependence of the reaction on either the conditions (temperatures, etc.) or the detailed thermodynamics of the reactions sensitive to conformational changes in the solvent.",

author = "Neal Woodbury",

year = "2006",

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language = "English (US)",

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AU - Woodbury, Neal

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N2 - Through careful study of the dynamics of photosynthesis reaction centers, we have developed a methodology for creating light initiated reactions in specific media that results in very little dependence of the reaction on either the conditions (temperatures, etc.) or the detailed thermodynamics of the reactions sensitive to conformational changes in the solvent.

AB - Through careful study of the dynamics of photosynthesis reaction centers, we have developed a methodology for creating light initiated reactions in specific media that results in very little dependence of the reaction on either the conditions (temperatures, etc.) or the detailed thermodynamics of the reactions sensitive to conformational changes in the solvent.

M3 - Patent

ER -

Controlling Reaction Kinetics and Pathway via Dielectric Relaxation of Complex Media

Abstract

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