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Photochemical energy conversion by membrane-bound photoredox systems. Final report

Description: This project has received DOE support since July 1, 1978. During this period, 40 papers have been published dealing predominantly with chlorophyll-photosensitized electron transfer reactions in a variety of media (solutions, polymer films, lipid bilayer membranes). The overall theme of this work has been to develop mechanistic strategies f or photochemical energy storage via chlorophyll, using the green plant photosynthetic system as a paradigm for designing in vitro systems. Microheterogeneous… more
Date: June 16, 1994
Creator: Tollin, Gordon
Item Type: Refine your search to only Report
open access

Photochemical energy conversion by membrane-bound photoredox systems

Description: Most of our effort during the past grant period has been directed towards investigating electron transfer processes involving redox proteins at lipid bilayer/aqueous interfaces. This theme, as was noted in our previous three year renewal proposal, is consistent with our goal of developing biomimetic solar energy conversion systems which utilize the unique properties of biological electron transfer molecules. Thus, small redox proteins such as cytochrome c, plastocyanin and ferredoxin function i… more
Date: March 1, 1992
Creator: Tollin, Gordon
Item Type: Refine your search to only Report
open access

Photochemical energy conversion by membrane-bound photoredox systems. Progress report, July 1, 1989--March 1, 1992

Description: Most of our effort during the past grant period has been directed towards investigating electron transfer processes involving redox proteins at lipid bilayer/aqueous interfaces. This theme, as was noted in our previous three year renewal proposal, is consistent with our goal of developing biomimetic solar energy conversion systems which utilize the unique properties of biological electron transfer molecules. Thus, small redox proteins such as cytochrome c, plastocyanin and ferredoxin function i… more
Date: March 1, 1992
Creator: Tollin, Gordon
Item Type: Refine your search to only Report
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