解耦(概率)
乙炔
催化作用
活动站点
化学
光化学
材料科学
有机化学
工程类
控制工程
作者
Zhengwen Li,Jiajun Zhang,Jiaming Tian,Kai Feng,Yuxin Chen,Xiao Li,Zhihe Zhang,Shuairen Qian,Bin Yang,Dong Su,Kai Luo,Binhang Yan
标识
DOI:10.1021/acscatal.3c05508
摘要
Achieving high ethylene selectivity while preserving high reactivity for semihydrogenation of acetylene over Pd-based catalysts is still challenging. Here, we propose a structure of encapsulated Pd nanoparticles to enhance catalytic performance via a low-dose doping-segregation strategy using Pd-doped SrTiO3 as a precursor. The encapsulated Pd nanoclusters are revealed to be protected by a thin TiOx shell to prevent contact with acetylene/ethylene. However, hydrogen can still be efficiently activated on the encapsulated Pd sites and react with the adsorbed acetylene on surface Ti3+ sites via hydrogen spillover. By taking advantage of weaker ethylene adsorption on partially reduced oxide TiOx, this catalyst shows an enhanced performance of 98% conversion and 92% selectivity with a specific activity of 5552 molC2H2·molPd–1·h–1 at 100 °C, significantly surpassing most Pd-based catalysts. This strategy decouples active sites for the activation of different reactants, providing a thought for the development of highly active and selective hydrogenation catalysts.
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