Electron Transfer and Solvent-Mediated Electronic Localization in Molecular Photocatalysis

This work provides a detailed mechanism for electron transfer in a heterodinuclear complex designed as a model system in which to study homogeneous molecular photocatalysis. With efficient Born–Oppenheimer molecular dynamics simulations, we show how intermediate, charge-separated states can mediate...

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Veröffentlicht in:	Inorganic chemistry 2016-10, Vol.55 (20), p.10637-10644
Hauptverfasser:	Dohn, Asmus O., Kjær, Kasper S., Harlang, Tobias B., Canton, Sophie E., Nielsen, Martin M., Møller, Klaus B.
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container_end_page	10644
container_issue	20
container_start_page	10637
container_title	Inorganic chemistry
container_volume	55
creator	Dohn, Asmus O. Kjær, Kasper S. Harlang, Tobias B. Canton, Sophie E. Nielsen, Martin M. Møller, Klaus B.
description	This work provides a detailed mechanism for electron transfer in a heterodinuclear complex designed as a model system in which to study homogeneous molecular photocatalysis. With efficient Born–Oppenheimer molecular dynamics simulations, we show how intermediate, charge-separated states can mediate the electron transfer. We observe how Jahn–Teller distortion effects play out in solution, when the molecule has energetically close-lying states, and how this distortion is averaged out in the thermal sampling. Finally, we demonstrate how the solvent helps stabilize and localize the separated charge. The information on the electronic configuration and separate states is of key importance for designing next-generation photocatalysts.
doi_str_mv	10.1021/acs.inorgchem.6b01840
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title	Electron Transfer and Solvent-Mediated Electronic Localization in Molecular Photocatalysis
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