通过原子转移催化的酮基自由基反应性。
Ketyl radical reactivity via atom transfer catalysis.
机构信息
Department of Chemistry and Biochemistry, The Ohio State University, Columbus, OH, USA.
出版信息
Science. 2018 Oct 12;362(6411):225-229. doi: 10.1126/science.aau1777.
Abstract
Single-electron reduction of a carbonyl to a ketyl enables access to a polarity-reversed platform of reactivity for this cornerstone functional group. However, the synthetic utility of the ketyl radical is hindered by the strong reductants necessary for its generation, which also limit its reactivity to net reductive mechanisms. We report a strategy for net redox-neutral generation and reaction of ketyl radicals. The in situ conversion of aldehydes to α-acetoxy iodides lowers their reduction potential by more than 1 volt, allowing for milder access to the corresponding ketyl radicals and an oxidative termination event. Upon subjecting these iodides to a dimanganese decacarbonyl precatalyst and visible light irradiation, an atom transfer radical addition (ATRA) mechanism affords a broad scope of vinyl iodide products with high -selectivity.
摘要
羰基的单电子还原使该基石官能团能够获得极性反转的反应平台。然而,由于生成酮自由基所需的强还原剂的限制,其合成用途受到阻碍,这也限制了其反应性至净还原机制。我们报告了一种用于酮自由基的净氧化还原中性生成和反应的策略。醛原位转化为α-乙酰氧基碘化物将其还原电位降低了 1 伏以上,从而可以更温和地获得相应的酮自由基,并发生氧化终止反应。当这些碘化物受到二锰十羰基前催化剂和可见光照射时,原子转移自由基加成(ATRA)机制提供了广泛的具有高选择性的乙烯基碘化物产物。
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