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Room temperature catalytic carbon–hydrogen bond alumination of unactivated arenes: mechanism and selectivity

机译：未活化芳烃的室温催化碳氢键铝化：机理和选择性

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We report the first catalytic methods for the transformation of C–H bonds of unactivated arenes into C–Al bonds. The catalytic reactions occur at 25 °C (benzene, toluene and xylenes) with palladium loadings as low as 0.1 mol%. Remarkably, the C–H activation of toluene and xylenes proceeds with ortho- and meta-selectivity. This selectivity is highly unusual and complementary to both Friedel–Crafts and the majority of C–H borylation methods. Through a detailed mechanistic analysis (Eyring analysis, KIE, DFT, QTAIM) we show that unusual Pd–Al intermetallic complexes are on the catalytic cycle and that the selectivity is determined by weak attractive dispersion forces in the transition state for C–H bond breaking.

机译：我们报告了将未活化的芳烃的C–H键转变为C–Al键的第一种催化方法。催化反应在25°C（苯，甲苯和二甲苯）下进行，钯的含量低至0.1 mol％。值得注意的是，甲苯和二甲苯的C–H活化具有邻位和间位选择性。这种选择性非常不寻常，是Friedel-Crafts和大多数C-H硼化方法的补充。通过详细的机理分析（Eyring分析，KIE，DFT，QTAIM），我们显示出不寻常的Pd-Al金属间配合物处于催化循环中，并且选择性由过渡态中C–H键断裂的弱吸引力分散力决定。。

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期刊名称 Chemical Science
作者
Thomas N. Hooper; Martí Garçon; Andrew J. P. White; Mark R. Crimmin;
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年(卷),期 2018(9),24
年度 2018
页码 5435–5440
总页数 6
原文格式 PDF
正文语种
中图分类生化遗传学;生化药理学;
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专利

1. Room temperature catalytic carbon–hydrogen bond alumination of unactivated arenes: mechanism and selectivity [J] . Thomas N. Hooper, Martí Gar?on, Andrew J. P. White, Chemical science . 2018,第24期

机译：室温催化碳 - 氢键对未激活的阶段：机制和选择性
2. Mechanism of the Selective Fe-Catalyzed Arene Carbon-Hydrogen Bond Functionalization [J] . Postils Veronica, Rodriguez Monica, Sabenya Gerard, ACS catalysis . 2018,第5期

机译：选择性Fe催化的芳烃碳 - 氢键官能化的机理
3. Catalytic Hydrogen/Deuterium Exchange of Unactivated Carbon-Hydrogen Bonds by a Pentanuclear Electron-Deficient Nickel Hydride Cluster [J] . Robert Beck, Manar Shoshani, Samuel A. Johnson Angewandte Chemie . 2012,第47期

机译：五核电子不足的氢化镍簇催化未活化的碳氢键的催化氢/氘交换
4. Catalytic Hydrogenation of Cinnamaldehyde on Pt/Carbon Catalysts: The Effects of Metal Location, and Dispersion on Activity and Selectivity [C] . Nabin K. Nag Conference on the Catalysis of Organic Reactions . 2005

机译：肉桂醛对Pt /碳催化剂的催化氢化：金属位置的影响，以及分散对活性和选择性的影响
5. Stoichiometric, catalytic and enantioface-selective hydrogenation of carbon-nitrogen double bonds by an ionic mechanism. [D] . Magee, Matthew Patrick. 2001

机译：通过离子机理对碳氮双键进行化学计量，催化和对映体选择性氢化。
6. Mechanism and origins of selectivity in the enantioselective oxa-Pictet–Spengler reaction: a cooperative catalytic complex from a hydrogen bond donor and chiral phosphoric acid [O] . Mark A. Maskeri, Alexander C. Brueckner, Taisiia Feoktistova, 2020

机译：对映选择性的氧气乳酸型反应中的选择性机制和起源：来自氢键供体和手性磷酸的协同催化复合物
7. Room temperature catalytic carbon–hydrogen bond alumination of unactivated arenes: mechanism and selectivity [O] . Thomas N. Hooper, Martí Garçon, Andrew J. P. White, 2018

机译：室温催化碳 - 氢键对未激活的阶段：机制和选择性
8. Direct Selective Acylation of an Unactivated C-H Bond in a Caged Hydrocarbon.Approach to Systems for C-H Bond Functionalization That Proceed Catalytically and Selectively at High Substrate Conversion [R] . Prosser-McCartha, C. M., Hill, C. L. 1990

机译：笼型烃中未活化C-H键的直接选择性酰化。用于C-H键官能化的系统，在高基质转化下催化和选择性地进行

Room temperature catalytic carbon–hydrogen bond alumination of unactivated arenes: mechanism and selectivity

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