Reactivity-Controlling Factors in Carboxylate-Assisted C-H Activation under 4d and 3d Transition Metal Catalysis

Rogge Torben; Oliveira Joao C. A.; Kuniyil Rositha; Hu Lianrui; Ackermann Lutz

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Reactivity-Controlling Factors in Carboxylate-Assisted C-H Activation under 4d and 3d Transition Metal Catalysis

机译：4D和3D转变金属催化下羧酸盐辅助C-H激活的反应性控制因子

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Detailed density functional theory calculations provide valuable insight into reactivity-controlling factors in transition metal-catalyzed C-H activation by carboxylate assistance. The chelation-assisted activation of a variety of arenes by 3d and 4d transition metal complexes was analyzed by means of bond order analysis through density functional theory (DFT) calculations as well as energy decomposition analysis through DLPNO-CCSD(T) calculations, thereby providing in-depth information on distinct electronic influences on the key C-H activation transition state and demonstrating a preferred activation through a base-assisted internal electrophilic substitution (BIES) rather than a concerted metalation-deprotonation (CMD) pathway.

机译：详细的密度函数理论计算提供了通过羧酸盐辅助的过渡金属催化的C-H激活中的反应性控制因子的有价值的见解。通过密度泛函理论（DFT）计算和通过DLPNO-CCSD（T）计算的能量分解分析来分析通过3D和4D过渡金属配合物的各种阶段的螯合辅助激活的螯合辅助活化。从而提供关于不同电子对关键CH激活转变状态的深入信息，并通过基础辅助内部亲电子亲替代（BIE）而不是齐全的金属化 - 去质子化（CMD）途径的优选激活。

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《ACS catalysis 》 |2020年第18期| 共8页
作者
Rogge Torben; Oliveira Joao C. A.; Kuniyil Rositha; Hu Lianrui; Ackermann Lutz;
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作者单位

Georg August Univ Gottingen Inst Organ &

Biomol Chem D-37077 Gottingen Germany;

Georg August Univ Gottingen Inst Organ &

Biomol Chem D-37077 Gottingen Germany;

Georg August Univ Gottingen Inst Organ &

Biomol Chem D-37077 Gottingen Germany;

Georg August Univ Gottingen Inst Organ &

Biomol Chem D-37077 Gottingen Germany;

Georg August Univ Gottingen Inst Organ &

Biomol Chem D-37077 Gottingen Germany;

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原文格式 PDF
正文语种 eng
中图分类物理化学（理论化学）、化学物理学 ;
关键词
C-H activation; DFT; reaction mechanism; transition metals; catalysis;

机译：C-H激活;DFT;反应机制;过渡金属;催化;

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专利

1. Reactivity-Controlling Factors in Carboxylate-Assisted C-H Activation under 4d and 3d Transition Metal Catalysis [J] . Rogge Torben, Oliveira Joao C. A., Kuniyil Rositha, ACS catalysis . 2020 ,第18期

机译：4D和3D转变金属催化下羧酸盐辅助C-H激活的反应性控制因子
2. C-H Functionalization of Indoles by 3d Transition-Metal Catalysis [J] . Asian Journal of Organic Chemistry . 2020 ,第3期

机译：3D过渡金属催化吲哚C-H官能化
3. Enantioselective C-H Activation with Earth-Abundant 3d Transition Metals [J] . Loup Joachim, Dhawa Uttam, Pesciaioli Fabio, Angewandte Chemie . 2019 ,第37期

机译：用土坯3D过渡金属对映选择性C-H激活
4. Catalytic Stereoselective Benzylic C-H Functionalizations by Oxidative C-H Activation and Organocatalysis [C] . Montse Guiteras Capdevila, Fides Benfatti, Luca Zoli European Symposium on Organic Chemistry . 2009

机译：催化立体选择性苄基C-H官能化氧化C-H活化与有机成分
5. Activation and Transformation of C-F and C-H Bonds through Late Transition Metal Binding [D] . Mueller, Benjamin Richard Joseph. 2021

机译：通过晚期过渡金属结合的C-F和C-H键的活化和转化
6. Complementary Strategies for Directed sp3 C-H Functionalization: A Comparison of Transition-Metal Catalyzed Activation Hydrogen Atom Transfer and Carbene/Nitrene Transfer [O] . John C. K. Chu, Prof. Tomislav Rovis -1

机译：定向sp3 C-H功能化的补充策略：过渡金属催化活化氢原子转移和碳氢/丁二烯转移的比较
7. Computational Studies of Carboxylate-Assisted C-H Activation and Functionalization at Group 8-10 Transition Metal Centers [O] . Davies, David L., Macgregor, Stuart A., McMullin, Claire L. 2017

机译：在8-10组过渡金属中心进行羧酸盐辅助的C-H活化和官能化的计算研究

Reactivity-Controlling Factors in Carboxylate-Assisted C-H Activation under 4d and 3d Transition Metal Catalysis

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