Powering the future of molecular artificial photosynthesis with light-harvesting metallosupramolecular dye assemblies

Peter D. Frischmann; Kingsuk Mahata; Frank Würthner

doi:10.1039/C2CS35223K

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Chemical Society Reviews

Issue 4, 2013

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Powering the future of molecular artificial photosynthesis with light-harvesting metallosupramolecular dye assemblies

Peter D. Frischmann,^a Kingsuk Mahata^a and Frank Würthner*^a

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Universität Würzburg, Institut für Organische Chemie and Center for Nanosystems Chemistry, Am Hubland, 97074 Würzburg, Germany
E-mail: wuerthner@chemie.uni-wuerzburg.de

Chem. Soc. Rev., 2013,42, 1847-1870

DOI: 10.1039/C2CS35223K
Received 26 Jun 2012, First published online 31 Jul 2012

This article is part of themed collection: Albert Werner Nobel Prize 100 year celebration

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Chemical ingenuity will play a significant role in solving the greatest challenge currently facing society: providing clean and carbon neutral energy for all of humanity. Molecular artificial photosynthesis is an emerging technology based on principles learned from Nature where individual components perform the essential light-harvesting, charge-separation, and water splitting functions to store solar energy in the form of chemical bonds. This tutorial review focuses specifically on the application of metallosupramolecular self-assembly strategies to interface solar fuel catalysts with photosensitizers and construct light-harvesting antennae capable of achieving panchromatic absorption and directional energy concentration.

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