Catalytic Oxidation of Organic Substrates by Molecular Oxygen and Hydrogen Peroxide by Multistep Electron Transfer-A Biomimetic Approach

Julio Piera; Jan-E.Backvall

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Catalytic Oxidation of Organic Substrates by Molecular Oxygen and Hydrogen Peroxide by Multistep Electron Transfer-A Biomimetic Approach

机译：多步电子转移-仿生法分子氧和过氧化氢催化氧化有机底物

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Oxidation reactions are of fundamental importance in nature,and are key transformations in organic synthesis.The development of new processes that employ transition metals as substrate-selective catalysts and stoichiometric environmentally friendly oxidants,such as molecular oxygen or hydrogen peroxide,is one of the most important goals in oxidation chemistry.Direct oxidation of the catalyst by molecular oxygen or hydrogen peroxide is often kinetically unfavored.The use of coupled catalytic systems with electron-transfer mediators(ETMs)usually facilitates the procedures by transporting the electrons from the catalyst to the oxidant along a low-energy pathway,thereby increasing the efficiency of the oxidation and thus complementing the direct oxidation reactions.As a result of the similarities with biological systems,this can be dubbed a biomimetic approach.

机译：氧化反应本质上是最重要的，是有机合成中的关键转变。采用过渡金属作为底物选择性催化剂和化学计量的环境友好型氧化剂（例如分子氧或过氧化氢）的新工艺的开发是最重要的工艺之一。氧化化学中的重要目标。在分子动力学上不利于分子氧或过氧化氢对催化剂的直接氧化。通常，将偶合的催化系统与电子转移介体（ETM）结合使用通常可通过将电子从催化剂传输到氧化剂来简化程序沿着低能量途径，从而提高了氧化效率，从而补充了直接氧化反应。由于与生物系统的相似性，可以将其称为仿生方法。

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《Angewandte Chemie》 |2008年第19期|共18页
作者
Julio Piera; Jan-E.Backvall;
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正文语种 eng
中图分类应用化学;
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electron transfer mediators; hydrogen peroxide; molecular oxygen; oxidation; transition-metal catalysis;

机译：电子传递介质;过氧化氢;分子氧;氧化;过渡金属催化;

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1. Catalytic Oxidation of Organic Substrates by Molecular Oxygen and Hydrogen Peroxide by Multistep Electron Transfer-A Biomimetic Approach [J] . Julio Piera, Jan-E.Backvall Angewandte Chemie . 2008,第19期

机译：多步电子转移-仿生法分子氧和过氧化氢催化氧化有机底物
2. Aerobic oxidations of conjugated dienes using a catalytic palladium(II)-quinone-heteropolyacid system for electron transfer from organic substrates to molecular oxygen [J] . Bergstad K., Backvall JE., Grennberg H. Organometallics . 1998,第1期

机译：共轭二烯的需氧氧化使用催化钯（II）-醌-杂多酸体系进行，以将电子从有机底物转移到分子氧
3. Alloxan-Catalyzed Biomimetic Oxidations with Hydrogen Peroxide or Molecular Oxygen [J] . Zhang Shiqi, Li Guangxun, Li Ling, ACS catalysis . 2020,第1期

机译：含有过氧化氢或分子氧的异掺换荧光氧化
4. Catalytic Oxidation Reactions in Carbon Dioxide-Expanded Liquids Using the Green Oxidants Oxygen and Hydrogen Peroxide [C] . Daryle H. Busch, Bala Subramaniam American Chemical Society . 2009

机译：使用绿色氧化剂氧气和过氧化氢的二氧化碳 - 膨胀液中催化氧化反应
5. The activation of dioxygen species (oxygen, radical oxygen ion, and hydrogen peroxide) by iron complexes for the selective oxidation and oxygenation of organic substrates [D] . Sheu, Ceshing 1990

机译：铁络合物活化双氧物种（氧气，自由基氧离子和过氧化氢），以选择性氧化和氧化有机底物
6. Enhanced Catalytic Four-Electron Dioxygen (O2) and Two-Electron Hydrogen Peroxide (H2O2) Reduction with a Copper(II) Complex Possessing a Pendant Ligand Pivalamido Group [O] . Saya Kakuda, Ryan L. Peterson, Kei Ohkubo, -1

机译：具有侧链配体Pivalamido基团的铜（II）配合物增强的催化四电子双氧（O2）和双电子过氧化氢（H2O2）还原
7. Activation of Molecular Oxygen into Hydrogen Peroxide via α-Azobenzyl Hydroperoxide. A Generation of Hydrogen Peroxide from Organic Hydroperoxide by the Amine-base Catalyzed Reaction [O] . Takahiro Tezuka, Takashi Otsuka 1988

机译：通过α-偶氮苄基氧化氧化盐激活分子氧气中的过氧化氢。通过胺基催化反应产生来自有机氢过氧化氢的过氧化氢

Catalytic Oxidation of Organic Substrates by Molecular Oxygen and Hydrogen Peroxide by Multistep Electron Transfer-A Biomimetic Approach

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