用于乙烯环氧化反应的CuCs掺杂银基催化剂设计

最近的理论研究筛选出CuCs掺杂Ag基催化剂是一种高效的乙烯环氧化催化剂[ACS Catal. 11,3371 (2021)]. 然而,该工作是基于研究表面建模预测Ag基催化剂的性能,在实际反应过程中,Ag基催化剂是颗粒状的. 本文结合密度函数理论、Wulff构造理论和微观动力学分析来研究Ag基催化剂在颗粒模型上的催化性能. 研究表明,CuCs掺杂Ag基催化剂在选择性和活性方面都优于纯Ag基催化剂,这一点通过实验得到了证明. 进一步地表征分析发现,CuCs掺杂能促进颗粒的生长以及颗粒的分散,从而形成富含晶界的Ag颗粒. 此外,CuCs促进了催化剂表面亲电氧的形成,这均有利于环氧乙烷的形成和解吸. 本工作为理论与实验相结合的催化剂设计提供了一个案例研究.     

Melting Behaviour of Core-Shell Structured Ag-Rh Bimetallic Clusters

The melting behaviour of four typical core-shell structured 309-atom Ag-Rh bimetallic clusters, with decahedral and icosahedral geometric configurations, is investigated by using molecular dynamics simulation, based on the Sutton-Chen potential. The initial atomic configurations are obtained from semi-grand canonical ensemble Monte Carlo simulations. It is found that the melting point temperature Tm increases with the mole fraction of Rh in the bimetallic clusters, and Tm of Ag-Rh icosahedral clusters is higher than those of Ag-Rh decahedral clusters with the same Rh mole fraction. It is also found that the Ag atoms lie on the surface of Ag-Rh bimetallic clusters even after melting.