Mechanism-Driven Approach To Develop a Mild and Versatile C-H Amidation through IrIII Catalysis

Yeongyu Hwang; Yoonsu Park; Sukbok Chang

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Mechanism-Driven Approach To Develop a Mild and Versatile C-H Amidation through IrIII Catalysis

机译：通过IRIII催化，机制驱动的方法，通过IRIII催化开发轻度和多功能C-H次扫描

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Described herein is a mechanism-based approach to develop a versatile C-H amidation protocol under IrIII catalysis. Reaction kinetics of a key C-N coupling step with acyl azide and 1,4,2-dioxazol-5-one led us to conclude that dioxazolones are much more efficient in mediating the formation of a carbon-nitrogen bond from an iridacyclic intermediate. Computational analysis revealed that the origin of higher reactivity is asynchronous decarboxylation motion, which may facilitate the formation of Ir-imido species. Importantly, stoichiometric reactivity was successfully translated into catalytic activity with a broad range of substrates (18 different types), many of which are regarded as challenging to functionalize. Application of the new method enables late-stage functionalization of drug molecules.

机译：本文描述的是基于机制的方法，用于在IRIII催化下在IRIII催化下开发通络C-H酰胺化方案。用酰叠氮化酰基和1,4,2-二氧唑-5-one的键C-N偶联步骤的反应动力学LED指导我们得出结论，在介导从虹吸性中间体中介导碳 - 氮键的形成方面更有效。计算分析显示，更高反应性的起源是异步脱羧运动，这可以促进IR-Imido物种的形成。重要的是，化学计量反应性成功转化为具有宽范围的基材（18种不同）的催化活性，其中许多被认为是致力于官能化的挑战。新方法的应用能够进行药物分子的后期官能化。

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来源
《Chemistry: A European journal》 |2017年第46期|共6页
作者
Yeongyu Hwang; Yoonsu Park; Sukbok Chang;
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作者单位

Department of Chemistry Korea Advanced Institute of Science and Technology (KAIST) Daejeon 34141 (Republic of Korea) and Center for Catalytic Hydrocarbon Functionalizations Institute for Basic Science (IBS) Daejeon 34141 (Republic of Korea);

Department of Chemistry Korea Advanced Institute of Science and Technology (KAIST) Daejeon 34141 (Republic of Korea) and Center for Catalytic Hydrocarbon Functionalizations Institute for Basic Science (IBS) Daejeon 34141 (Republic of Korea);

Department of Chemistry Korea Advanced Institute of Science and Technology (KAIST) Daejeon 34141 (Republic of Korea) and Center for Catalytic Hydrocarbon Functionalizations Institute for Basic Science (IBS) Daejeon 34141 (Republic of Korea);

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原文格式 PDF
正文语种 eng
中图分类应用化学;
关键词
amination; C-N coupling; density functional calculations; iridium; transition states;

机译：胺化;C-N耦合;密度函数计算;铱;过渡州;

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专利

1. Mechanism-Driven Approach To Develop a Mild and Versatile C-H Amidation through IrIII Catalysis [J] . Yeongyu Hwang, Yoonsu Park, Sukbok Chang Chemistry: A European journal . 2017,第46期

机译：通过IRIII催化，机制驱动的方法，通过IRIII催化开发轻度和多功能C-H次扫描
2. A Single Electron Transfer (SET) Approach to C-H Amidation of Hydrazones via Visible-Light Photoredox Catalysis [J] . Zhang Muliang, Duan Yingqian, Li Weipeng, Organic letters . 2016,第20期

机译：可见光光氧化还原催化to的C-H酰胺化的单电子转移（SET）方法
3. A Single Electron Transfer (SET) Approach to C-H Amidation of Hydrazones via Visible-Light Photoredox Catalysis [J] . Zhang Muliang, Duan Yingqian, Li Weipeng, Organic letters . 2016,第20期

机译：可见光光氧化还原催化to的C-H酰胺化的单电子转移（SET）方法
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. Copper Catalysis: A Versatile Approach to C-C and C-B Bond Formation [D] . Bergmann, Allison Marie. 2020

机译：铜催化：C-C和C-B键形成的通用方法
6. Development of a Mild and Versatile Directed Cycloaddition Approach to Pyridines [O] . Sylvestre P J T Bachollet, Jérôme F Vivat, Dean C Cocker, -1

机译：吡啶的轻度和多功能定向环加成方法的发展
7. Intercepting Palladacycles Derived by C-H Insertion. A Mechanism-Driven Entry to Heterocyclic Tetraphenylenes [O] . -1

机译：拦截由C-H插入衍生的钯类。杂环四苯基的机制驱动的进入
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

Mechanism-Driven Approach To Develop a Mild and Versatile C-H Amidation through IrIII Catalysis

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