Journal ArticleDOI
Copper-Catalyzed Aerobic Oxidative C ? H Functionalizations: Trends and Mechanistic Insights
TLDR
This work has reported several recently reported Cu-catalyzed C-H oxidation reactions that feature substrates that are electron-deficient or appear unlikely to undergo single-electron transfer to copper(II), and evidence has been obtained for the involvement of organocopper(III) intermediates in the reaction mechanism.Abstract:
The selective oxidation of C-H bonds and the use of O(2) as a stoichiometric oxidant represent two prominent challenges in organic chemistry. Copper(II) is a versatile oxidant, capable of promoting a wide range of oxidative coupling reactions initiated by single-electron transfer (SET) from electron-rich organic molecules. Many of these reactions can be rendered catalytic in Cu by employing molecular oxygen as a stoichiometric oxidant to regenerate the active copper(II) catalyst. Meanwhile, numerous other recently reported Cu-catalyzed C-H oxidation reactions feature substrates that are electron-deficient or appear unlikely to undergo single-electron transfer to copper(II). In some of these cases, evidence has been obtained for the involvement of organocopper(III) intermediates in the reaction mechanism. Organometallic C-H oxidation reactions of this type represent important new opportunities for the field of Cu-catalyzed aerobic oxidations.read more
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Low Reorganization Energy for Electron Self-Exchange by a Formally Copper(III,II) Redox Couple.
TL;DR: The rate constant for electron self-exchange between LCuOH and [LCuOH]- (L = bis-2, 6-(2,6-diisopropylphenyl)carboximidopyridine) was determined using the Marcus cross relation, and the reaction entropy was determined from the temperature dependence of the redox potentials, and found to be dependent upon ionic strength.
Journal ArticleDOI
NiSO4-catalyzed C–H activation/C–S cross-coupling of 1,2,3-triazole N-oxides with thiols
TL;DR: An efficient nickel-catalyzed protocol for C-S cross-coupling through the direct functionalization of 2-aryl-1,2,3-triazole N-oxide C-H bonds with aryl or alkyl thiols, or diphenyl disulfide has been developed.
Journal ArticleDOI
Auto-oxidation promoted sp3 C–H arylation of glycine derivatives
TL;DR: An auto-oxidation promoted sp3 C-H arylation reaction between N-aryl glycine derivatives and electron-rich arenes, leading to the formation of N- Daryl α-aryl α-amino acid derivatives, is described.
Journal ArticleDOI
Synthesis of multisubstituted furans via Cu( i )-catalyzed annulation of ketones with alkynoate under ligand- and additive-free conditions
TL;DR: A facile and efficient annulation strategy for the synthesis of multisubstituted furan derivatives has been achieved under mild conditions and this ligand- and additive-free cyclization protocol offers an environmentally friendly and efficient access to biologically important scaffolds from readily available substrates.
Journal ArticleDOI
Ligand-Free Copper(I)-Catalyzed Benzylic Acyloxylation of 2-Alkylpyridines under Aerobic Conditions
TL;DR: A ligand-free copper(I)-catalyzed benzylic acyloxylation of 2-alkylpyridines with carboxylic acids was realized by using 1.0 atm of O2 as a green oxidant, providing a facile access to a wide range of N-heterocyclic esters through C-O bond formation, with broad substrate scope and good functional group tolerance.
References
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Journal ArticleDOI
Palladium-Catalyzed Ligand-Directed C−H Functionalization Reactions
TL;DR: This is the first comprehensive review encompassing the large body of work in this field over the past 5 years, and will focus specifically on ligand-directed C–H functionalization reactions catalyzed by palladium.
Journal ArticleDOI
Palladium(II)-catalyzed C-H activation/C-C cross-coupling reactions: versatility and practicality.
TL;DR: A review of palladium-catalyzed coupling of CH bonds with organometallic reagents through a PdII/Pd0 catalytic cycle can be found in this paper.
Journal ArticleDOI
Catalytic dehydrogenative cross-coupling: forming carbon-carbon bonds by oxidizing two carbon-hydrogen bonds
Charles S. Yeung,Vy M. Dong +1 more
Journal ArticleDOI
Multicopper Oxidases and Oxygenases
TL;DR: Copper sites have historically been divided into three classes based on their spectroscopic features, which reflect the geometric and electronic structure of the active site: type 1 or blue copper, type 2 (T2) or normal copper, and type 3 (T3) or coupled binuclear copper centers.
Journal ArticleDOI
Rhodium-Catalyzed C-C Bond Formation via Heteroatom-Directed C-H Bond Activation
TL;DR: This review focuses on Rh-catalyzed methods for C-H bond functionalization, which have seen widespread success over the course of the last decade and are discussed in detail in the accompanying articles in this special issue of Chemical Reviews.
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