硅烷化
电化学
催化作用
化学
有机化学
物理化学
电极
作者
Zhihua Zhang,Jingfang Wang,Changsheng Qin,Shuai Zhang,Sun Yi,Chenxu Li,Xinyue Li,Fanwu Meng,Fanghua Ji,Guangbin Jiang
标识
DOI:10.1016/j.mcat.2025.115218
摘要
• Justification for the submission to Molecular Catalysis. • Late-stage functionalization of bioactive molecule derivatives. • Simple and green conditions. • Broad FG tolerance & scale-up. • Absence of metal/oxidant & high atom economy. Polysubstituted azauracils represent highly important nitrogen-containing heterocyclic compounds that are widely found in biologically active molecules. Current synthetic methods primarily rely on expensive transition metals or often toxic photocatalysts to achieve C H functionalization of azauracils, making it imperative to develop simpler and more practical synthetic approaches. Electroorganic synthesis offers an excellent alternative strategy. Herein, we disclose an electrochemical C H silylation method for the synthesis of various silicon-substituted azauracils using azauracils and hydrosilanes as starting materials. This transformation is conducted in an undivided cell, offering operational simplicity, excellent substrate compatibility, and scalability to gram-scale synthesis. Furthermore, this strategy enables the late-stage derivatization of valuable molecules. Mechanistic studies reveal that azauracils capture silicon radicals through three distinct pathways, ultimately generating diverse polysubstituted azauracil derivatives.
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