催化作用
戒指(化学)
分子内力
组合化学
化学
基质(水族馆)
模块化设计
取代基
药物发现
化学合成
脚手架
纳米技术
光催化
过程(计算)
级联反应
立体化学
转化(遗传学)
自由基环化
级联
羟基化
键裂
双键
作者
Yi-Peng Liu,Shi-Yu Guo,Zhi-Yuan Ding,Yilitabaier Julaiti,Lian-Yue Wang,Xiao-Feng Wu,Qing-An Chen
标识
DOI:10.26434/chemrxiv.10001578/v1
摘要
Ring-expansion editing offers a transformative strategy that could reshape the landscape of ring scaffold construction in synthetic chemistry. The introduction of three-dimensionality ring into flat aromatic systems could afford importantly semisaturated fused heterocycles, yet efficient method to access sulfur-containing semisaturated fused pyridines (SSFPs) remains scare. Herein, we report a pyridyl radical-driven catalytic strategy for the direct two-carbon ring expansion of readily available cyclic thioesters, providing efficient access to synthetically challenging SSFPs. This transformation is enabled by synergistic dual photoredox cycles that orchestrate a cascade of radical cross-coupling, C(sp³)-S bond cleavage, and intramolecular cyclization between commercial bromopyridines and cyclic sulfides. The protocol demonstrates broad functional-group tolerance and substrate generality. Gram-scale synthesis and extensive downstream derivatizations, including late-stage semisaturation of pharmaceutical cores, highlight its synthetic utility. Mechanistic studies support a stepwise radical process involving discrete pyridyl and carbon-centered radical intermediates. This method offers a step-economical and modular alternative to conventional de novo synthesis for the rapid construction of complex, drug-like heterocyclic architectures.
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