纳米材料基催化剂
双金属片
催化作用
介孔材料
合理设计
材料科学
二聚体
纳米技术
Atom(片上系统)
化学
化学工程
有机化学
计算机科学
工程类
嵌入式系统
作者
Xiaojuan Zhu,Qishui Guo,Yafei Sun,Shangjun Chen,Jian‐Qiang Wang,Mengmeng Wu,Wenzhao Fu,Yanqiang Tang,Xuezhi Duan,De Chen,Ying Wan
标识
DOI:10.1038/s41467-019-09421-5
摘要
Abstract Understanding the catalytic mechanism of bimetallic nanocatalysts remains challenging. Here, we adopt an adsorbate mediated thermal reduction approach to yield monodispersed AuPd catalysts with continuous change of the Pd-Au coordination numbers embedded in a mesoporous carbonaceous matrix. The structure of nanoalloys is well-defined, allowing for a direct determination of the structure-property relationship. The results show that the Pd single atom and dimer are the active sites for the base-free oxidation of primary alcohols. Remarkably, the d -orbital charge on the surface of Pd serves as a descriptor to the adsorbate states and hence the catalytic performance. The maximum d -charge gain occurred in a composition with 33–50 at% Pd corresponds to up to 9 times enhancement in the reaction rate compared to the neat Pd. The findings not only open an avenue towards the rational design of catalysts but also enable the identification of key steps involved in the catalytic reactions.
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