微型多孔材料
催化作用
化学
苯乙酮
热解
烷基
金属有机化学
劈理(地质)
碳纤维
键裂
有机化学
材料科学
断裂(地质)
复合数
复合材料
作者
Chao Xie,Longfei Lin,Liang Huang,Zixin Wang,Zhiwei Jiang,Zehui Zhang,Buxing Han
标识
DOI:10.1038/s41467-021-25118-0
摘要
Abstract Selective cleavage of C-C bonds is very important in organic chemistry, but remains challenging because of their inert chemical nature. Herein, we report that Zn/NC-X catalysts, in which Zn 2+ coordinate with N species on microporous N-doped carbon (NC) and X denotes the pyrolysis temperature, can effectively catalyze aerobic oxidative cleavage of C(CO)-C bonds and quantitatively convert acetophenone to methyl benzoate with a yield of 99% at 100 °C. The Zn/NC-950 can be applied for a wide scope of acetophenone derivatives as well as more challenging alkyl ketones. Detail mechanistic investigations reveal that the catalytic performance of Zn/NC-950 can be attributed to the coordination between Zn 2+ and N species to change the electronic state of the metal, synergetic effect of the Zn single sites with their surrounding N atoms, as well as the microporous structure with the high surface area and structural defects of the NC.
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