Guan Zhipeng, Zhu Shuxiang, Yang Yankai, Liu Yanlong, Wang Siyuan, Bu Faxiang, Cong Hengjiang, Alhumade Hesham, Zhang Heng, Lei Aiwen
Institute for Advanced Studies (IAS), College of Chemistry and Molecular Sciences, Engineering Research Center of Organosilicon Compounds & Materials, Ministry of Education, Wuhan University Wuhan Hubei 430072 People's Republic of China
Department of Chemical and Materials Engineering, Faculty of Engineering, King Abdulaziz University Jeddah Saudi Arabia.
Chem Sci. 2021 Oct 1;12(42):14121-14125. doi: 10.1039/d1sc04475c. eCollection 2021 Nov 3.
The construction of C(sp)-X (X = B, N, O, Si, P, S, Se, .) bonds has drawn growing attention since heteroatomic compounds play a prominent role from biological to pharmaceutical sciences. The current study demonstrates the C(sp)-S/Se and C(sp)-N bond formation of one carbon of isocyanides with thiophenols or disulfides or diselenides and azazoles simultaneously. The reported findings could provide access to novel multiple isothioureas, especially hitherto rarely reported selenoureas. The protocol showed good atom-economy and step-economy with only hydrogen evolution and theoretical calculations accounted for the stereoselectivity of the products. Importantly, the electrochemical reaction could exclusively occur at the isocyano part regardless of the presence of susceptible radical acceptors, such as a broad range of arenes and alkynyl moieties, even alkenyl moieties.
由于杂原子化合物在从生物科学到制药科学等领域发挥着重要作用,C(sp)-X(X = B、N、O、Si、P、S、Se等)键的构建受到了越来越多的关注。当前的研究表明,异腈的一个碳原子可同时与硫酚或二硫化物或二硒化物以及氮杂环化合物形成C(sp)-S/Se键和C(sp)-N键。所报道的研究结果可为新型多异硫脲,尤其是迄今鲜有报道的硒脲的合成提供途径。该方法显示出良好的原子经济性和步骤经济性,仅产生氢气,并且理论计算解释了产物的立体选择性。重要的是,无论是否存在易受影响的自由基受体,如多种芳烃和炔基部分,甚至烯基部分,电化学反应都只会在异腈部分发生。
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