醌催化的有机分子选择性氧化
Quinone-Catalyzed Selective Oxidation of Organic Molecules.
作者信息
Wendlandt Alison E, Stahl Shannon S
机构信息
Department of Chemistry, University of Wisconsin-Madison, 1101 University Avenue, Madison, Wisconsin 53706 (USA).
出版信息
Angew Chem Int Ed Engl. 2015 Dec 1;54(49):14638-58. doi: 10.1002/anie.201505017. Epub 2015 Nov 4.
Abstract
Quinones are common stoichiometric reagents in organic chemistry. Para-quinones with high reduction potentials, such as DDQ and chloranil, are widely used and typically promote hydride abstraction. In recent years, many catalytic applications of these methods have been achieved by using transition metals, electrochemistry, or O2 to regenerate the oxidized quinone in situ. Complementary studies have led to the development of a different class of quinones that resemble the ortho-quinone cofactors in copper amine oxidases and mediate the efficient and selective aerobic and/or electrochemical dehydrogenation of amines. The latter reactions typically proceed by electrophilic transamination and/or addition-elimination reaction mechanisms, rather than hydride abstraction pathways. The collective observations show that the quinone structure has a significant influence on the reaction mechanism and has important implications for the development of new quinone reagents and quinone-catalyzed transformations.
摘要
醌类是有机化学中常见的化学计量试剂。具有高还原电位的对醌,如2,3-二氯-5,6-二氰基对苯醌(DDQ)和四氯对苯醌,被广泛使用,通常促进氢化物提取。近年来,通过使用过渡金属、电化学或氧气原位再生氧化醌,实现了这些方法的许多催化应用。补充研究导致了另一类醌的开发,这类醌类似于铜胺氧化酶中的邻醌辅因子,并介导胺的高效和选择性需氧和/或电化学脱氢。后一种反应通常通过亲电转氨和/或加成-消除反应机制进行,而不是氢化物提取途径。总体观察结果表明,醌结构对反应机制有重大影响,对新型醌试剂和醌催化转化的开发具有重要意义。
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