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Chem Sci. 2020 Jun 25;11(28):7456-7461. doi: 10.1039/d0sc02131h.
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Nickel catalysis enables convergent paired electrolysis for direct arylation of benzylic C-H bonds.镍催化实现了用于苄基碳氢键直接芳基化的收敛式成对电解。
Chem Sci. 2020 Apr 27;11(39):10786-10791. doi: 10.1039/d0sc01445a.
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Electrocatalysis as an enabling technology for organic synthesis.电催化作为有机合成的一种支撑技术。
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Reaching the Full Potential of Electroorganic Synthesis by Paired Electrolysis.通过成对电解实现有机电合成的最大潜力。
Chem Rec. 2021 Sep;21(9):2574-2584. doi: 10.1002/tcr.202100025. Epub 2021 Apr 9.
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Electrochemically Enabled, Nickel-Catalyzed Dehydroxylative Cross-Coupling of Alcohols with Aryl Halides.电化学促进的镍催化醇与芳基卤化物的脱氢交叉偶联反应。
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Nickel-Catalyzed N-Arylation of NH-Sulfoximines with Aryl Halides via Paired Electrolysis.镍催化的通过成对电解实现的NH-亚砜亚胺与芳基卤化物的N-芳基化反应。
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Photoredox Nickel-Catalyzed C-S Cross-Coupling: Mechanism, Kinetics, and Generalization.光氧化还原镍催化的 C-S 交叉偶联:反应机理、动力学和普适性。
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Oxalohydrazide Ligands for Copper-Catalyzed C-O Coupling Reactions with High Turnover Numbers.草酰肼配体用于铜催化的 C-O 偶联反应,具有高周转数。
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Electroreductive Nickel-Catalyzed Thiolation: Efficient Cross-Electrophile Coupling for C-S Formation.电还原镍催化的硫醇化反应:用于碳-硫键形成的高效交叉亲电偶联反应
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化学选择性、可扩展的镍电催化醇的O-芳基化反应

Chemoselective, Scalable Nickel-Electrocatalytic O-Arylation of Alcohols.

作者信息

Zhang Hai-Jun, Chen Longrui, Oderinde Martins S, Edwards Jacob T, Kawamata Yu, Baran Phil S

机构信息

Department of Chemistry, The Scripps Research Institute, 10550 North Torrey Pines Road, La Jolla, CA, 92037, USA.

Department of Discovery Synthesis, Bristol Myers Squibb Research & Early Development, Princeton, NJ, 08540, USA.

出版信息

Angew Chem Int Ed Engl. 2021 Sep 13;60(38):20700-20705. doi: 10.1002/anie.202107820. Epub 2021 Aug 15.

DOI:10.1002/anie.202107820
PMID:34288303
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC8429144/
Abstract

The formation of aryl-alkyl ether bonds through cross coupling of alcohols with aryl halides represents a useful strategic departure from classical S 2 methods. Numerous tactics relying on Pd-, Cu-, and Ni-based catalytic systems have emerged over the past several years. Herein we disclose a Ni-catalyzed electrochemically driven protocol to achieve this useful transformation with a broad substrate scope in an operationally simple way. This electrochemical method does not require strong base, exogenous expensive transition metal catalysts (e.g., Ir, Ru), and can easily be scaled up in either a batch or flow setting. Interestingly, e-etherification exhibits an enhanced substrate scope over the mechanistically related photochemical variant as it tolerates tertiary amine functional groups in the alcohol nucleophile.

摘要

通过醇与芳基卤化物的交叉偶联形成芳基-烷基醚键,这是一种有别于经典S2方法的有用策略。在过去几年中,出现了许多基于钯、铜和镍的催化体系的策略。在此,我们公开了一种镍催化的电化学驱动方案,以一种操作简单的方式在广泛的底物范围内实现这种有用的转化。这种电化学方法不需要强碱、外源昂贵的过渡金属催化剂(如铱、钌),并且可以很容易地在间歇或流动条件下放大规模。有趣的是,电子醚化在底物范围上比与之机理相关的光化学变体有所扩大,因为它能耐受醇亲核试剂中的叔胺官能团。