Mimicking the Photosynthetic Process in a Macromolecule

G. Kodis; Y. Terazono; P. A. Liddell; J. Andréasson; V. Garg; M. Hambourger; T. A. Moore; A. L. Moore; D. Gust

doi:10.1055/s-2006-934376

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Synfacts 2006(5): 0443-0443
DOI: 10.1055/s-2006-934376

Synthesis of Materials and Unnatural Products

Mimicking the Photosynthetic Process in a Macromolecule

Contributor(s): Timothy M. Swager, Trisha L. Andrew
G. Kodis, Y. Terazono, P. A. Liddell, J. Andréasson, V. Garg, M. Hambourger, T. A. Moore*, A. L. Moore*, D. Gust*
Arizona State University, Tempe, USA

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Publication History

Publication Date:
21 April 2006 (online)

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Significance

A wheel-shaped macromolecule, 1, comprised of five bis(phenylethynyl) anthracene antenna chromophores and a porphyrin-fullerene electron donor-acceptor moiety was synthesized and shown to demonstrate efficient light harvesting in the 430-480 nm spectral region, where solar irradiance is maximal. Singlet energy transfer from the five anthracene antennas of 1, which absorb strongly in the 430-475 nm region, to the porphyrin moiety occurs rapidly and with a quantum yield of ˜100%. Subsequently, photoinduced electron transfer creates a P ^{⟨ +}-C₆₀ ^{⟨ -} charge-separated state, thus mimicking the process used by photosynthetic organisms to convert sunlight into electrochemical potential. The details of the synthesis of the macromolecule are reported in a separate account: J. Porphyrins Phthalocyanines 2005, in press.