羟基化
锰
催化作用
化学
烯丙基重排
有机化学
苯甲醇
组合化学
酶
作者
Jiale Ji,Shiliang Wang,Zhaowen Dai,Yinghao Huo,Limin Wang,Qingshu Zheng,Tao Tu
标识
DOI:10.1038/s41467-025-61989-3
摘要
Direct conversion of amines to corresponding alcohols is challenging even under harsh reaction conditions. Inspired by enzymatic transamination, we present a transamination borrowing-hydrogen strategy that enables the direct and selective Mn-catalyzed deaminative hydroxylation of benzylamines, affording a broad scope (>30 examples) of alcohols in good yields at low catalyst loadings (down to 0.05 mol%). Notably, methanol serves a dual role as hydrogen donor and amino acceptor, rather than a conventional role as a methylating agent. Mechanistic investigations reveal base plays a pivotal role in facilitating the 1,3-proton transfer process, thereby effectively suppressing N-methylation pathways and favoring alcohol formation.
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