Dehydrative C-H/N-OH Functionalizations in H2O by Ruthenium(II) Catalysis: Subtle Effect of Carboxylate Ligands and Mechanistic Insight

Yang Fanzhi; Ackermann Lutz

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Dehydrative C-H/N-OH Functionalizations in H2O by Ruthenium(II) Catalysis: Subtle Effect of Carboxylate Ligands and Mechanistic Insight

机译：钌（II）催化H2O中的脱水C-H / N-OH官能化：羧酸盐配体的细微作用和机理研究

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A ruthenium(II) complex derived from the electron-deficient aromatic carboxylic acid 3-(F3C)C6H4CO2H proved to be a highly efficient catalyst for dehydrative alkyne annulation by NH-free hydroxamic acids in water. The CH/NOH functionalization occurred with excellent positional selectivity as well as ample substrate scope, setting the stage for effective intermolecular alkenylations of hydroxamic acids. Detailed mechanistic studies were suggestive of a kinetically relevant CH metalation by carboxylate assistance along with subsequent migratory alkyne insertion, reductive elimination, and intramolecular oxidative addition.

机译：衍生自缺电子芳族羧酸3-（F3C）C6H4CO2H的钌（II）络合物被证明是通过水中不含NH的异羟肟酸使炔烃脱水的高效催化剂。 CH / NOH官能化具有出色的位置选择性以及充足的底物范围，为异羟肟酸的有效分子间烯基化奠定了基础。详细的机理研究表明，通过羧酸盐的协助以及随后的迁移性炔烃插入，还原消除和分子内氧化加成，可在动力学上实现CH的金属化。

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《The Journal of Organic Chemistry》 |2014年第24期|共13页
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Yang Fanzhi; Ackermann Lutz;
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1. Dehydrative C-H/N-OH Functionalizations in H2O by Ruthenium(II) Catalysis: Subtle Effect of Carboxylate Ligands and Mechanistic Insight [J] . Yang Fanzhi, Ackermann Lutz The Journal of Organic Chemistry . 2014,第24期

机译：钌（II）催化H2O中的脱水C-H / N-OH官能化：羧酸盐配体的细微作用和机理研究
2. Micellar Catalysis for Ruthenium(II)-Catalyzed C-H Arylation: Weak-Coordination-Enabled C-H Activation in H2O [J] . Yetra Santhivardhana Reddy, Rogge Torben, Warratz Svenja, Angewandte Chemie . 2019,第22期

机译：用于钌（II）的胶束催化 - 催化C-H芳族化：H2O中的弱协调的C-H活化
3. Water Oxidation Catalysis Beginning with Co4(H2O)_2(PW9O_(34))_2~(10-) When Driven by the Chemical Oxidant Ruthenium(III)tris(2,2′-bipyridine): Stoichiometry, Kinetic, and Mechanistic Studies en Route to Identifying the True Catalyst [J] . Jordan J. Stracke, Richard G. Finke ACS catalysis . 2014,第1期

机译：化学氧化剂钌（III）tris（2,2'-联吡啶）驱动下从Co4（H2O）_2（PW9O_（34））_ 2〜（10-）开始的水氧化催化反应：化学计量，动力学和机理研究识别真正催化剂的途径
4. Carbene-Mediated Functionalization of the Anomeric C-H bond of Carbohydrates: Scope, Limitations and Mechanistic Insights [C] . Melissa Boultadakis-Arapinis, Elise Prost, Pascale Lemoine International Carbohydrate Symposium . 2013

机译：碳水化合物的异常C-H键的卡内介导的官能化：范围，限制和机械洞察
5. I. Multicatalysis: Development of a Bismuth(III) triflate-catalyzed Nucleophilic addition/ Hydrofunctionalization Reaction in the Synthesis of Complex Heterocycles II. C--H Arylation of Arenes and Heteroarenes with Palladium-Carboxylate Catalysts: Identification of the Catalyst Resting State and the Crucial Role of Pivalate Ligand in Stabilization of the Catalyst III. C--H Arylation of Heteroarenes with Palladium-Carboxylate Catalysts: Importance of Phosphine Ligand for Basic Heteroarene Substrates IV. C--H Arylation of Heteroarenes with Palladium-Carboxylate Catalysts: Effect of the Properties of Basic Heteroarene Substrates on Direct Arylations. [D] . Tundel, Rachel E. 2011

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6. Electronic and Steric Tuning of a Prototypical Piano Stool Complex: Rh(III) Catalysis for C-H Functionalization [O] . Tiffany Piou, Tomislav Rovis -1

机译：原型钢琴凳复合体的电子和立体调音：用于C-H功能化的Rh（III）催化
7. Mechanistic insights into transfer hydrogenation catalysis by [Ir(cod)(NHC)2]+ complexes with functionalized N-heterocyclic carbene ligands [O] . Jiménez, M. Victoria, Fernández-Tornos, Javier, Pérez-Torrente, Jesús J., 2015

机译：机械见解的功能性的N-杂环卡宾配体[Ir（cod）（NHC）2] +配合物转移加氢催化

Dehydrative C-H/N-OH Functionalizations in H2O by Ruthenium(II) Catalysis: Subtle Effect of Carboxylate Ligands and Mechanistic Insight

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