Ni-catalyzed reductive cross-couplings of diaryl disulfides with aryl bromides for biaryl synthesis through C-S bond cleavage

IF 4.6 1区化学 Q1 CHEMISTRY, ORGANIC

Organic Chemistry Frontiers Pub Date : 2025-06-04 DOI:10.1039/d5qo00546a

Xuan-Qi Zhang, Cai-Yu He, Shuang-Feng Song, Xue-Qiang Chu, Hao Xu, Xiaocong Zhou, Weidong Rao, Zhi-Liang Shen

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Abstract

In previous reports, the cross-couplings of diaryl disulfides with aryl halides in the presence of transition metal catalyst (e.g., Ni, Cu) and metal mediator (e.g., Mg, Zn) usually led to the corresponding aryl sulfides via old S-S bond cleavage and new C-S bond formation. In the present study, we found that the reductive cross-couplings of diaryl disulfides with aryl bromides proceeded via unusual C-S bond cleavage in the presence of nickel catalyst, magnesium, and lithium chloride in THF at room temperature, leading to a variety of biaryls in modest to good yields. In addition, the reaction could be scaled-up with ease. Mechanistic studies showed that the reaction possibly proceeds via the in situ production of arylmagnesium compound as reaction intermediate via LiCl-facilitated Mg insertion into aryl bromide. Most importantly, the combinatory use of Ni(II) catalyst and Mg mediator is the key for the unusual cleavage of the C-S bond in diaryl disulfide to form the corresponding arylnickel(II) species which serves as another important intermediate of the present desulfurated cross-coupling reaction.

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镍催化二芳基二硫化物与芳基溴的还原交叉偶联，通过C-S键裂解合成联芳基

在以往的报道中，在过渡金属催化剂（如Ni、Cu）和金属介质（如Mg、Zn）的存在下，二芳基二硫化物与芳基卤化物的交叉偶联通常通过旧S-S键断裂和新的C-S键形成而产生相应的芳基硫化物。在本研究中，我们发现，在室温下，在镍催化剂、镁和氯化锂的存在下，二芳基二硫化物与芳基溴化物的还原交叉偶联通过异常的C-S键裂解进行，导致各种双芳基在中等到良好的产量。此外，该反应可以很容易地按比例放大。机理研究表明，该反应可能是通过原位生产芳基镁化合物作为反应中间体，通过licl促进Mg插入芳基溴而进行的。最重要的是，Ni（II）催化剂和Mg介质的组合使用是导致二芳基二硫化物中C-S键异常断裂形成相应的芳基镍（II）物质的关键，而芳基镍（II）物质是本脱硫交叉偶联反应的另一个重要中间体。

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来源期刊

Organic Chemistry Frontiers CHEMISTRY, ORGANIC-

CiteScore

7.90

自引率

11.10%

发文量

686

审稿时长

1 months

期刊介绍： Organic Chemistry Frontiers is an esteemed journal that publishes high-quality research across the field of organic chemistry. It places a significant emphasis on studies that contribute substantially to the field by introducing new or significantly improved protocols and methodologies. The journal covers a wide array of topics which include, but are not limited to, organic synthesis, the development of synthetic methodologies, catalysis, natural products, functional organic materials, supramolecular and macromolecular chemistry, as well as physical and computational organic chemistry.