Dual Catalysis Strategies in Photochemical Synthesis | Zendy

Kazimer L. Skubi | Zendy; Travis R. Blum | Zendy; Tehshik P. Yoon | Zendy

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Dual Catalysis Strategies in Photochemical Synthesis

Author(s) -

Kazimer L. Skubi,

Travis R. Blum,

Tehshik P. Yoon

Publication year - 2016

Publication title -

chemical reviews

Language(s) - English

Resource type - Journals

SCImago Journal Rank - 20.528

H-Index - 700

eISSN - 1520-6890

pISSN - 0009-2665

DOI - 10.1021/acs.chemrev.6b00018

Subject(s) - chemistry , photocatalysis , catalysis , electron transfer , photochemistry , dual role , redox , excited state , lewis acids and bases , molecule , hydrogen atom , combinatorial chemistry , reactive intermediate , dual (grammatical number) , organic synthesis , organic chemistry , physics , alkyl , nuclear physics , art , literature

The interaction between an electronically excited photocatalyst and an organic molecule can result in the genertion of a diverse array of reactive intermediates that can be manipulated in a variety of ways to result in synthetically useful bond constructions. This Review summarizes dual-catalyst strategies that have been applied to synthetic photochemistry. Mechanistically distinct modes of photocatalysis are discussed, including photoinduced electron transfer, hydrogen atom transfer, and energy transfer. We focus upon the cooperative interactions of photocatalysts with redox mediators, Lewis and Brønsted acids, organocatalysts, enzymes, and transition metal complexes.

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