化学
激进的
位阻效应
硫化物
未成对电子
硫化氢
硫酸
光化学
离域电子
反应中间体
有机化学
功能群
自由基离子
电子离域
密度泛函理论
羟基自由基
二甲基硫醚
反应性(心理学)
电子转移
分子
自由基引发剂
分解
反应中间体
无机化学
放射分析
组合化学
高分子化学
反应机理
作者
Dongmin Kang,Minseok Kim,Heenang Choi,J. P. HWANG,Gayeong Lim,Jaelim Kim,Youngsuk Kim
摘要
Stable organic radicals have attracted significant attention owing to their key role in understanding reactive intermediates and their diverse applications as functional materials. Sulfide radical cations, in particular, serve as crucial intermediates in various fields such as organic chemistry, biochemistry, and polymer/materials science. However, the development of air- and water-stable sulfide radical cations has remained a significant challenge. In this study, highly stable sulfide radical cations supported by two cyclic (alkyl)(amino)carbene (CAAC) moieties have been synthesized. In addition to demonstrating high air- and water stability, these radical cations can withstand harsh conditions, including exposure to reactive chemicals such as sulfuric acid and hydrogen peroxide, as well as elevated temperatures. Combined experimental and computational studies reveal that the sulfur-centered unpaired electron is stabilized through electronic delocalization and steric protection provided by the CAAC substituents. These findings establish a new class of exceptionally stable sulfur-based radicals and pave the way for their potential applications as functional materials.
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