An electrochemical perspective on the roles of ligands in the merger of transition-metal catalysis and electrochemistry
Literature Information
Publication Date
2020-12-28
DOI
10.1039/D0QO01227K
Impact Factor
5.281
Authors
Jun-Song Zhong, Yi Yu, Zhaojiang Shi, Ke-Yin Ye
View Original
Abstract
The merger of transition-metal catalysis and electrochemistry has emerged as a very versatile and robust synthetic tool in organic synthesis. Like in their non-electrochemical variants, ligands also play crucial roles in fundamental reactions in transition-metal catalysis under electrochemical conditions. Herein, a perspective on the roles of ligands in transition-metal catalysis under electrochemical conditions is provided with selected transformations enabled by such a merger including C–H functionalization, difunctionalization of alkenes, cross-coupling reactions and carboxylation with CO2.
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Source Journal
Organic Chemistry Frontiers
CiteScore:
7.8
Self-citation Rate:
8.7%
Articles per Year:
724
Organic Chemistry Frontiers publishes high-quality research from across organic chemistry. Emphases are placed on studies that make significant contributions to the field of organic chemistry by reporting either new or significantly improved protocols or methodologies. Topics include, but are not limited to the following: Organic synthesis Development of synthetic methodologies Catalysis Natural products Functional organic materials Supramolecular and macromolecular chemistry Physical and computational organic chemistry
Recommended Compounds
![Bis[(1,2,3,4,5-eta)-1-(diphenylphosphino)cyclopentadienyl]iron structure](https://static.chemtradehub.com/structs/121/12150-46-8-ecd2.webp "Bis[(1,2,3,4,5-eta)-1-(diphenylphosphino)cyclopentadienyl]iron structure")
Bis[(1,2,3,4,5-eta)-1-(diphenylphosphino)cyclopentadienyl]iron
CAS Number:
12150-46-8
Molecular Formula:
C34H28FeP2
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