化学
吡咯喹啉醌
脱氢
酒精氧化
激进的
镧系元素
酒
醛
催化作用
甲醇
醌
有机化学
羰基化
光化学
组合化学
辅因子
一氧化碳
酶
离子
作者
Ioana Ciubotaru,Lisa C. Biener,Violeta A. Vetsova,Patrick Weis,Michael Seitz,Lena J. Daumann
标识
DOI:10.1002/ejic.202500102
摘要
Since its discovery, pyrroloquinoline quinone (PQQ) has been under constant investigation regarding its efficiency in biomimetic complexes for alcohol dehydrogenation. The discovery of lanthanide (Ln) dependent methanol dehydrogenases has led to the use of lanthanide complexes bearing PQQ derivatives to oxidize alcohols. However, the mechanism of these oxidations is still a subject of debate. Herein, La 3+ and Lu 3+ complexes of PQQ dimethyl ester (PQQDME), that are able to stoichiometrically oxidize an alcohol substrate, are reported. In the presence of air, some catalytic turnover is observed, but less than with other, more heavily modified PQQ biomimetics known in the literature. To investigate the reason for this low turnover, the reduced counterpart, PQQDMEH 2 , is synthesized. It is shown that in the presence of atmospheric oxygen, the complexes of the reduced form undergo oxidation and can then also convert alcohol to aldehyde. Additionally, the involvement of radicals in the alcohol oxidation reaction and the origin and nature of these radicals is investigated.
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