非共振杂苄基C-H键的自由基氯化反应及杂环的高通量多样化合成

Radical Chlorination of Non-Resonant Heterobenzylic C-H Bonds and High-Throughput Diversification of Heterocycles.

作者信息

Golden Dung L, Flynn Kaitlyn M, Aikonen Santeri, Hanneman Christopher M, Kalyani Dipannita, Krska Shane W, Paton Robert S, Stahl Shannon S

机构信息

Department of Chemistry, University of Wisconsin-Madison, 1101 University Avenue, Madison, Wisconsin 53706, United States.

Present address: Chemical Process Development, Bristol Myers Squibb, 556 Morris Avenue, Summit, New Jersey 07901, United States.

出版信息

Chem. 2024 May 9;10(5):1593-1605. doi: 10.1016/j.chempr.2024.04.001. Epub 2024 Apr 24.

DOI:10.1016/j.chempr.2024.04.001

PMID:39108591

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC11299866/

Abstract

Site-selective functionalization of the heterobenzylic C(sp)-H bonds of pyridines and related heteroaromatic compounds presents challenges associated with the basic nitrogen atom and the variable reactivity among different positions on the heteroaromatic ring. Methods for functionalization of 2- and 4-alkylpyridines are increasingly available through polar pathways that leverage resonance stabilization of charge build-up at these positions. In contrast, functionalization of 3-alkylpyridines is largely inaccessible. Here, we report a photochemically promoted method for chlorination of non-resonant heterobenzylic C(sp)-H sites in 3-alkylpyridines and related alkylheteroaromatics. Density functional theory calculations show that the optimal reactivity reflects a balance between the energetics of the two radical-chain propagation steps, with the preferred reagent consisting of an -chlorosulfonamide. The operationally simple chlorination protocol enables access to heterobenzylic chlorides which serve as versatile intermediates in C-H cross-coupling reactions between heteroaromatic building blocks and diverse oxidatively sensitive nucleophiles using high-throughput experimentation.

摘要

吡啶及相关杂芳族化合物的异苄基C(sp) -H键的位点选择性官能团化面临着与碱性氮原子以及杂芳环上不同位置之间可变反应性相关的挑战。通过利用这些位置电荷积累的共振稳定作用的极性途径，2-和4-烷基吡啶的官能团化方法越来越多。相比之下，3-烷基吡啶的官能团化在很大程度上难以实现。在此，我们报道了一种光化学促进的方法，用于3-烷基吡啶及相关烷基杂芳族化合物中非共振异苄基C(sp) -H位点的氯化反应。密度泛函理论计算表明，最佳反应性反映了两个自由基链传播步骤能量之间的平衡，优选的试剂是一种氯磺酰胺。这种操作简单的氯化方案能够获得异苄基氯化物，这些氯化物在使用高通量实验的杂芳族结构单元与各种氧化敏感亲核试剂之间的C-H交叉偶联反应中作为通用中间体。

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