Unique structure of active platinum-bismuth site for oxidation of carbon monoxide
Bing Nan, Qiang Fu, Jing Yu, Miao Shu, Lulu Zhou, Li JinYing, Wei-Wei Wang, Chun‐Jiang Jia, Chao Ma, Jun-Xiang Chen, Lina Li, Rui Si
Abstract
Abstract As the technology development, the future advanced combustion engines must be designed to perform at a low temperature. Thus, it is a great challenge to synthesize high active and stable catalysts to resolve exhaust below 100 °C. Here, we report that bismuth as a dopant is added to form platinum-bismuth cluster on silica for CO oxidation. The highly reducible oxygen species provided by surface metal-oxide (M-O) interface could be activated by CO at low temperature (~50 °C) with a high CO 2 production rate of 487 μ mol CO2 ·g Pt −1 ·s −1 at 110 °C. Experiment data combined with density functional calculation (DFT) results demonstrate that Pt cluster with surface Pt−O−Bi structure is the active site for CO oxidation via providing moderate CO adsorption and activating CO molecules with electron transformation between platinum atom and carbon monoxide. These findings provide a unique and general approach towards design of potential excellent performance catalysts for redox reaction.