光激发镍催化的硅自由基介导的异氰酸酯直接活化反应用于构建（杂）芳基氨基甲酰胺。

Photo-Excited Nickel-Catalyzed Silyl-Radical-Mediated Direct Activation of Carbamoyl Chlorides To Access (Hetero)aryl Carbamides.

机构信息

Department of Chemistry, Indian Institute of Technology Bombay, Powai, Mumbai, 400076, India.

IDP in Climate Studies, Indian Institute of Technology Bombay, Mumbai, 400076, India.

出版信息

Angew Chem Int Ed Engl. 2022 Nov 2;61(44):e202207472. doi: 10.1002/anie.202207472. Epub 2022 Sep 29.

DOI:10.1002/anie.202207472

PMID:35929544

Abstract

Amide bonds connect the amino acids in proteins and exist as a prevalent structural motif in biomolecules. Herein, we have exploited the concept of cross-electrophile coupling by merging the photo-redox and transition-metal catalysis to construct carbamides from superabundant (hetero)aryl halides along with commercially feasible carbamoyl chlorides. The success of this method relies on the prior formation of Ni -aryl halide intermediates, which involves in a photoexcited Ni-halide homolysis event by energy transfer from aryl bromide and single-electron transfer from aryl chloride to assist generation of the vital carbamoyl radical. The breadth of application of this technique is demonstrated both in inter- as well as intramolecular routes for the synthesis of a plethora of (hetero)aryl carbamides with diverse functionalities, and biologically important benzolactams.

摘要

酰胺键将蛋白质中的氨基酸连接起来，并且作为生物分子中一种常见的结构基序而存在。在此，我们通过合并光氧化还原和过渡金属催化反应，利用交叉亲电偶联的概念，从丰富的（杂）芳基卤化物以及商业可行的氨基甲酰氯中构建了氨基甲酰胺。该方法的成功依赖于 Ni-芳基卤化物中间体的预先形成，这涉及通过芳基溴的能量转移和芳基氯的单电子转移到 Ni-卤化物的光激发 homolysis 事件，以协助生成重要的氨基甲酰基自由基。该技术的应用范围广泛，无论是在分子间还是分子内途径中，都可以合成具有各种功能的（杂）芳基氨基甲酰胺以及生物重要的苯并内酰胺。

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光激发镍催化的硅自由基介导的异氰酸酯直接活化反应用于构建（杂）芳基氨基甲酰胺。

Photo-Excited Nickel-Catalyzed Silyl-Radical-Mediated Direct Activation of Carbamoyl Chlorides To Access (Hetero)aryl Carbamides.

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