催化作用
乙炔
掺杂剂
氯乙烯
选择性
无机化学
活性炭
吸附
化学
X射线光电子能谱
活动中心
核化学
材料科学
兴奋剂
化学工程
有机化学
聚合物
工程类
光电子学
共聚物
作者
Guangbi Li,Wei Li,Jinli Zhang,Wu Zhang,Huan Zhou,Chuanling Si
标识
DOI:10.1002/slct.201800136
摘要
Abstract We used N‐doped activated carbon (NAC) as support to prepare a novel Au−Sr catalyst and evaluated the effect of N‐dopants on the performance of Au−Sr catalyst in acetylene hydrochlorination. A promoting effect was observed when N atoms were incorporated into AC framework, and the prepared SrAu/NAC catalyst demonstrated optimal activity compared with the undoped Au/AC and SrAu/AC catalysts. The SrAu/NAC also showed an excellent stability during the 500 h test, with acetylene conversion and vinyl chloride selectivity both exceeding 99.9%. A detailed characterization was investigated through XPS, TPD, TPR, TGA, PXRD, TEM, AAS, and BET to reveal the physicochemical properties of the related catalysts. It is demonstrated that the NAC can function as an effective support to enhance activity and life of Au‐based catalysts with unique electronic property, and the presence of doped nitrogen species as anchor sites is beneficial to increasing the electron density of active Au(III) center through electron transfer from doped N atoms to the active Au(III) species, and stabilizing active Au(III) ions and retarding its reduction within catalyst preparation and use process. Moreover, the combination of N‐dopants and strontium additive may promote a synergistic effect to make active Au species disperse better and significantly enhance the adsorption of HCl, remarkably suppress the reduction of active cationic Au(III), and effectively inhibit carbon deposition in the catalytic reaction.
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