Carboxylic acid derivatives via catalytic carboxylation of unsaturated hydrocarbons: whether the nature of a reductant may determine the mechanism of CO2 incorporation?

Kirillov E.; Carpentier J. -F.; Bunel E.

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Carboxylic acid derivatives via catalytic carboxylation of unsaturated hydrocarbons: whether the nature of a reductant may determine the mechanism of CO2 incorporation?

机译：通过不饱和烃催化羧化生成的羧酸衍生物：还原剂的性质是否可以决定CO2的引入机理？

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Application of CO2 as a renewable feedstock and C1 building block for production of commodity and fine chemicals is a highly challenging but obvious industry-relevant task. Of particular interest is the catalytic coupling of CO(2)with inexpensive unsaturated hydrocarbons (olefins, dienes, styrenes, alkynes), providing direct access to carboxylic acids and their derivatives. Although not brand new for the scientific community, it is still a complete challenge, as no truly effective catalytic system has been reported to date. In this Perspective, we discuss the available experimental, theoretical and mechanistic data for such homogeneously catalyzed carboxylation processes. A special focus is placed on the understanding of the key elementary steps and of some thermodynamic and kinetic constraints.

机译：将CO2用作可再生原料和C1构建基块用于生产商品和精细化学品是一项极具挑战性但明显与行业相关的任务。特别令人感兴趣的是CO（2）与廉价的不饱和烃（烯烃，二烯，苯乙烯，炔烃）的催化偶联，可直接接触到羧酸及其衍生物。尽管对于科学界来说并不是全新的，但这仍然是一个完整的挑战，因为迄今为止还没有报道过真正有效的催化系统。在此观点中，我们讨论了此类均相催化羧化过程的可用实验，理论和机理数据。重点放在关键的基本步骤以及一些热力学和动力学约束的理解上。

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《Dalton transactions: An international journal of inorganic chemistry》 |2015年第37期|共12页
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Kirillov E.; Carpentier J. -F.; Bunel E.;
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1. Carboxylic acid derivatives via catalytic carboxylation of unsaturated hydrocarbons: whether the nature of a reductant may determine the mechanism of CO2 incorporation? [J] . Kirillov E., Carpentier J. -F., Bunel E. Dalton transactions: An international journal of inorganic chemistry . 2015,第37期

机译：通过不饱和烃催化羧化生成的羧酸衍生物：还原剂的性质是否可以决定CO2的引入机理？
2. Nickel-Catalyzed Direct Carboxylation of Olefins with CO2: One-Pot Synthesis of alpha,beta-Unsaturated Carboxylic Acid Salts [J] . Huguet Nuria, Jevtovikj Ivana, Gordillo Alvaro, Chemistry: A European journal . 2014,第51期

机译：镍催化烯烃与CO2的直接羧化：一锅法合成α，β-不饱和羧酸盐
3. Divergent electrochemical carboxylation of vinyl triflates: new electrochemical synthesis of phenyl-substituted α,β-unsaturated carboxylic acids and aliphatic -keto carboxylic acids [J] . Hisanori Senboku, Yusuke Fujimura, Hisato Kamekawa, Electrochimica Acta . 2000,第18期

机译：乙烯基三氟甲磺酸的不同电化学羧化：苯基取代的α，β-不饱和羧酸和脂族-酮基羧酸的新电化学合成
4. Hydrocarbon Production from Carboxylic Acids via Catalytic Deoxygenation: Required Catalytic Properties [C] . Zhong He, Xianqin Wang Symposium on novel materials for catalysis and fuels processing . 2013

机译：来自羧酸通过催化脱氧的烃生产：所需催化性质
5. Catalytic Conversion of Lignocellulosic Biomass to Carboxylic Acids and Derivatives. [D] . Yang, Lisha. 2015

机译：木质纤维素生物质催化转化为羧酸和衍生物。
6. Scientific Opinion on Flavouring Group Evaluation 5 Revision 3 (FGE.05Rev3): Branched‐ and straight‐chain unsaturated aldehydes dienals unsaturated and saturated carboxylic acids and related esters with saturated and unsaturated aliphatic alcohols and a phenylacetic acid related ester from chemical groups 1 2 3 5 and 15 [O] . EFSA Food Additives and Flavourings (FAF), Maged Younes, Gabriele Aquilina, 2019

机译：关于调味剂基团评估5的科学意见修订版3（FGE.05Rev3）：支链和直链不饱和醛二烯不饱和和饱和羧酸及相关酯与饱和和不饱和脂族醇以及化学基团与苯乙酸有关的酯1、2、3、5和15
7. Carboxylic acid derivatives via catalytic carboxylation of unsaturated hydrocarbons: whether the nature of a reductant may determine the mechanism of CO2 incorporation? [O] . Kirillov, E., Carpentier, J.-F., Bunel, E 2015

机译：通过不饱和烃催化羧化形成的羧酸衍生物：还原剂的性质是否可以决定CO2的引入机理？

Carboxylic acid derivatives via catalytic carboxylation of unsaturated hydrocarbons: whether the nature of a reductant may determine the mechanism of CO2 incorporation?

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