Late-Stage N-Me Selective Arylation of Trialkylamines Enabled by Ni/Photoredox Dual Catalysis

Yangyang Shen; Tomislav Rovis

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Late-Stage N-Me Selective Arylation of Trialkylamines Enabled by Ni/Photoredox Dual Catalysis

机译：NI / Photoreox双催化使得三烷胺的晚期N-ME选择性芳族化

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The diversity and wide availability of trialkylamines render them ideal sources for rapid construction of complex amine architectures. Herein, we report that a nickel/photoredox dual catalysis strategy affects site-selective α-arylation of various trialkylamines. Our catalytic system shows exclusive N-Me selectivity with a wide range of trialkylamines under mild conditions, even in the context of late-stage arylation of pharmaceutical compounds bearing this common structural motif. Mechanistic studies indicate the unconventional behavior of Ni catalyst upon intercepting the α-amino radicals, in which only the primary α-amino radical undergoes a successful cross-coupling process.

机译：三种阶段的多样性和广泛可用性使它们成为快速建设复合胺架构的理想来源。在此，我们报告说镍/光致毒剂的双催化策略影响各种三烷基胺的位点选择性α-芳基化。我们的催化系统显示出在温和条件下具有广泛的三烷基胺的独家N-ME选择性，即使在含有该常见结构基质的药物化合物的后期芳族的背景下，也是如此。机械研究表明Ni催化剂在拦截α-氨基自由基时的非传统行为，其中仅初级α-氨基激进经历成功的交叉偶联过程。

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《Journal of the American Chemical Society》 |2021年第40期|16364-16369|共6页
作者
Yangyang Shen; Tomislav Rovis;
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Department of Chemistry Columbia University New York New York 10027 United States;

Department of Chemistry Columbia University New York New York 10027 United States;

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收录信息美国《科学引文索引》(SCI);美国《工程索引》(EI);美国《生物学医学文摘》(MEDLINE);美国《化学文摘》(CA);
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2. Cyclic Iodine Reagents Enable Allylic Alcohols for Alkyl Boronate Addition/Rearrangement by Photoredox Catalysis [J] . Mingshang Liu, Hanchu Huang, Yiyun Chen 中国化学（英文版） . 2018,第012期
3. Photoredox catalysis with aryl sulfonium salts enables site-selective late-stage fluorination [J] . Li Jiakun, Chen Junting, Sang Ruocheng, Nature Chemistry . 2020,第1期

机译：用芳基锍盐催化的摄影氧催化使现场选择性的晚期氟化
4. Deaminative Reductive Arylation Enabled by Nickel/Photoredox Dual Catalysis [J] . Yi Jun, Badir Shorouk O., Kammer Lisa Marie, Organic letters . 2019,第9期

机译：镍/光致毒剂双催化使能脱胺还原性芳基化
5. Ir/Ni Photoredox Dual Catalysis with Heterogeneous Base Enabled by an Oscillatory Plug Flow Photoreactor [J] . Debrouwer Wouter, Kimpe Wim, Dangreau Ruben, Organic process research & development . 2020,第10期

机译：IR / Ni Photoreox双催化通过振荡插头流动光反应器使能异构基座
6. Highly C3-Selective Direct Alkylation and Arylation of 2-Pyridones under Visible-Light-Promoted Photoredox Catalysis [C] . Atifah Najib, Sho Tabuchi, Koji Hirano 石油・石油化学討論会 . 2016

机译：高度C3选择性直接烷基化和2-吡啶的芳啶在可见光促进的光毒剂催化下
7. New Frontiers in Organocatalysis and Photoredox Catalysis: Oxy-Allyl Cations as a Novel Platform of Asymmetric Electrophilic Activation and Photoredox Enabled Site-Selective Bioconjugation [D] . Liu, Chun. 2017

机译：有机成分分析和Photoreox催化剂中的新边界：氧 - 烯丙基阳离子作为非对称亲电子激活和光毒的位点选择性生物杂交的新型平台
8. Engaging sulfinate salts via Ni/photoredox dual catalysis enables facile Csp2–SO2R coupling [O] . María Jesús Cabrera-Afonso, Zhi-Peng Lu, Christopher B. Kelly, 2018

机译：通过Ni /光氧化还原双重催化作用与亚磺酸盐结合可以轻松实现Csp2-SO2R偶联
9. Deaminative Reductive Arylation Enabled by Nickel/Photoredox Dual Catalysis [O] . Jun Yi, Shorouk O. Badir, Lisa Marie Kammer, 2019

机译：镍/光致毒剂双催化使能脱胺还原性芳基化
10. Visible-Light Photoredox Catalysis: Selective Reduction of Carbon Dioxide to Carbon Monoxide by a Nickel N-Heterocyclic Carbene-Isoquinoline Complex. [R] . Sara, V., Kornenko, N., Margarit, C. G., 2013

机译：可见光光催化氧化催化：用镍N-杂环卡宾 - 异喹啉配合物选择性还原二氧化碳为一氧化碳。

Late-Stage N-Me Selective Arylation of Trialkylamines Enabled by Ni/Photoredox Dual Catalysis

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