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关于芳基重氮乙酸酯对醇进行蓝光驱动的O-H官能化的进一步机理研究。

Further Mechanistic Investigations into the Blue Light-Driven O-H Functionalization of Alcohols by Aryldiazoacetates.

作者信息

Gallardo Geovanny M, Ryals Liam, Millan Allyson, Ventura Damian J, Petit Andrew S

机构信息

Department of Chemistry and Biochemistry, California State University-Fullerton, Fullerton, California 92834-6866, United States.

出版信息

J Org Chem. 2025 Jun 20;90(24):8202-8213. doi: 10.1021/acs.joc.5c00614. Epub 2025 Jun 9.

DOI:10.1021/acs.joc.5c00614
PMID:40489698
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC12186528/
Abstract

The blue light-driven O-H functionalization of alcohols by aryldiazoacetates represents a modern synthetic application of diazo photochemistry. Previous work by us and the Koenigs group demonstrated that this chemistry occurs through a free singlet carbene intermediate generated from the photolysis of the aryldiazoacetate. However, there is significant controversy in the literature concerning the exact photochemical pathway through which the photolysis of aryldiazoacetates occurs, with at least three proposed mechanisms in the literature. One group argued that photolysis requires protonation of the carbonyl to occur, another group described the C-N bond-breaking occurring on T after intersystem crossing from S, and a third group argued that the singlet carbene is generated on S after internal conversion from S. Additionally, no mechanistic explanation exists in the literature for the dependence of the O-H functionalized product yield on the chemical structure of the aryldiazoacetate. In this paper, we apply high-level quantum chemical methods to develop a refined picture of aryldiazoacetate photolysis and to build a mechanistic explanation for what controls the O-H functionalized product yield. Overall, our work provides new insights into an important chemical transformation initiated by the absorption of visible light.

摘要

芳基重氮乙酸酯介导的蓝光驱动醇的O-H官能化反应是重氮光化学在现代合成领域的一项应用。我们团队以及柯尼希斯团队之前的研究表明,该反应通过芳基重氮乙酸酯光解产生的单重态卡宾中间体进行。然而,关于芳基重氮乙酸酯光解的确切光化学途径,文献中存在重大争议,至少有三种机制被提出。一组认为光解需要羰基质子化;另一组描述了从S系间窜越到T后C-N键的断裂;第三组则认为单重态卡宾是从S内转换到S后产生的。此外,文献中没有关于O-H官能化产物产率与芳基重氮乙酸酯化学结构之间关系的机理解释。在本文中,我们应用高水平量子化学方法来深入了解芳基重氮乙酸酯的光解过程,并建立一个关于控制O-H官能化产物产率因素的机理解释。总的来说,我们的工作为可见光吸收引发的重要化学转化提供了新的见解。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/ed45/12186528/2cd6addb402c/jo5c00614_0012.jpg
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