肟和腙烯化反应的机理研究支持中间产物钌氮化物的存在。

Mechanistic Investigations into the Olefination of Oximes and Hydrazones Support Intermediate Ruthenium Nitrides.

作者信息

Ludwig Jacob R, Kiernicki John J, Nasrallah Daniel J, Zehnder Troy E, Zeller Matthias, Szymczak Nathaniel K, Schindler Corinna S

机构信息

Research and Development, Abbvie Inc., 1 North Waukegan Road, North Chicago, Illinois 60064, United States.

Department of Chemistry, Drury University, 900 North Benton Ave, Springfield, Missouri 65802, United States.

出版信息

J Am Chem Soc. 2025 Apr 30;147(17):14422-14431. doi: 10.1021/jacs.5c00787. Epub 2025 Apr 16.

DOI:10.1021/jacs.5c00787

PMID:40239103

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC12065548/

Abstract

The olefination of oximes and hydrazones with ruthenium alkylidenes has recently been developed by matching substrate/metal orbital energy and polarization. We herein report detailed mechanistic investigations showing that the reaction pathway is distinct from previously established olefin-olefin metathesis reactions. The ruthenium alkylidene-mediated metathesis of olefins and hydrazones or oximes proceeds via a pathway that form intermediate ruthenium nitrides, which undergo subsequent bimolecular extrusion of molecular nitrogen. Detailed insights into the controlling features of this transformation presented herein are key to the development of future catalytic protocols for the olefination of oximes and hydrazones.

摘要

最近，通过匹配底物/金属轨道能量和极化作用，实现了钌亚烷基与肟和腙的烯化反应。我们在此报告详细的机理研究，结果表明该反应途径与先前建立的烯烃-烯烃复分解反应不同。钌亚烷基介导的烯烃与腙或肟的复分解反应通过形成中间钌氮化物的途径进行，随后这些中间钌氮化物会发生双分子氮气挤出反应。本文所呈现的对这种转化控制特征的深入见解是未来开发肟和腙烯化催化方案的关键。

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