化学
电泳剂
还原消去
锌
金属转移
卤化物
组合化学
硫黄
氧化加成
联轴节(管道)
镍
溴化锌
金属
串联
甲烷氧化偶联
还原(数学)
计算化学
有机合成
反应中间体
光化学
氧化还原
锌指
还原剂
作者
Han Qian,Yuenian Xu,Wenlei Zhang,Zihan Liu,Ying Bai,Xinxin Shao
摘要
Comprehensive Summary Nickel‐catalyzed reductive coupling of organic halides with sulfur electrophiles has emerged as a robust strategy for accessing a diverse array of valuable sulfur‐containing molecules. However, its mechanism remains incompletely elucidated, primarily due to the lack of studies on characterization of multiple nickel intermediates ( e.g ., Ni(I)/Ni(II)/Ni(III)), as well as the mechanistic roles of reductive metal additives. Herein, we identify the rapid oxidative addition of zinc to the S–S bond of disulfides as a pivotal step that enables subsequent transmetallation with arylnickel(II) adducts. Furthermore, we discovered that the zinc serves as additional two critical roles: it not only reduces the Ni(II)‐precatalyst to active Ni(0) specie, but also mediates the reduction of sulfur electrophiles ( e.g ., N ‐thiophthalimides or thiosulfonates) to the corresponding disulfides. We also report the first example of a base‐free, nickel‐catalyzed Negishi‐type thiolation of (hetero)aryl halides using bench‐stable zinc dithiolates, thereby furnishing a versatile alternative to established methodologies for the synthesis of structurally diverse C(sp 2 )‐rich sulfides.
科研通智能强力驱动
Strongly Powered by AbleSci AI