机械化学通过自由基配体转移和电子催化驱动烯烃双官能化反应。

Mechanochemistry Drives Alkene Difunctionalization via Radical Ligand Transfer and Electron Catalysis.

作者信息

Patra Subrata, Nandasana Bhargav N, Valsamidou Vasiliki, Katayev Dmitry

机构信息

Department of Chemistry, Biochemistry, and Pharmaceutical Sciences, University of Bern, Freiestrasse 3, Bern, 3012, Switzerland.

出版信息

Adv Sci (Weinh). 2024 Aug;11(29):e2402970. doi: 10.1002/advs.202402970. Epub 2024 Jun 3.

DOI:10.1002/advs.202402970

PMID:38829256

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC11304296/

Abstract

A general and modular protocol is reported for olefin difunctionalization through mechanochemistry, facilitated by cooperative radical ligand transfer (RLT) and electron catalysis. Utilizing mechanochemical force and catalytic amounts of 2,2,6,6-tetramethylpiperidinyloxyl (TEMPO), ferric nitrate can leverage nitryl radicals, transfer nitrooxy-functional group via RLT, and mediate an electron catalysis cycle under room temperature. A diverse range of activated and unactivated alkenes exhibited chemo- and regioselective 1,2-nitronitrooxylation under solvent-free or solvent-less conditions, showcasing excellent functional group tolerance. Mechanistic studies indicated a significant impact of mechanochemistry and highlighted the radical nature of this nitrative difunctionalization process.

摘要

报道了一种通用且模块化的通过机械化学实现烯烃双官能化的方法，该方法由协同自由基配体转移（RLT）和电子催化促进。利用机械化学力和催化量的2,2,6,6-四甲基哌啶氮氧化物（TEMPO），硝酸铁可以利用硝酰自由基，通过RLT转移硝基氧基官能团，并在室温下介导电子催化循环。在无溶剂或溶剂较少的条件下，多种活化和未活化的烯烃表现出化学和区域选择性的1,2-硝基硝基氧基化反应，展示出优异的官能团耐受性。机理研究表明机械化学有显著影响，并突出了这种硝化双官能化过程的自由基性质。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/9bef/11304296/e58abf306866/ADVS-11-2402970-g002.jpg

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机械化学通过自由基配体转移和电子催化驱动烯烃双官能化反应。

Mechanochemistry Drives Alkene Difunctionalization via Radical Ligand Transfer and Electron Catalysis.

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