石墨烯
人工酶
化学
基质(水族馆)
过氧化物酶
催化作用
纳米材料
活动站点
组合化学
酶
纳米技术
立体化学
有机化学
材料科学
生物
生态学
作者
Hanjun Sun,Andong Zhao,Nan Gao,Kai Li,Jinsong Ren,Xiaogang Qu
标识
DOI:10.1002/anie.201500626
摘要
Abstract The design and construction of efficient artificial enzymes is highly desirable. Recent studies have demonstrated that a series of carbon nanomaterials possess intrinsic peroxidase activity. Among them, graphene quantum dots (GQDs) have a high enzymatic activity. However, the catalytic mechanism remains unclear. Therefore, in this report, we chose to decipher their peroxidase activity. By selectively deactivating the ketonic carbonyl, carboxylic, or hydroxy groups and investigating the catalytic activities of these GQD derivatives, we obtained evidence that the CO groups were the catalytically active sites, whereas the OCO groups acted as substrate‐binding sites, and COH groups can inhibit the activity. These results were corroborated by theoretical studies. This work should not only enhance our understanding of nanocarbon‐based artificial enzymes, but also facilitate the design and construction of other types of target‐specific artificial enzymes.
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