Efficient and stable low-temperature CO oxidation over Pt/In-SnO2 composite triggered by abundant oxygen vacancies and adsorption sites | |
Sun, Yukun; Gao, Yang; He, Chi; Song, Weiyu; Jiang, Zeyu; Albilali, Reem; Bai, Bo | |
刊名 | CATALYSIS SCIENCE & TECHNOLOGY |
2021 | |
卷号 | 11期号:11 |
英文摘要 | It is of great significance to design highly active and stable catalysts for CO oxidation. Herein, a Pt/In-SnO2 catalyst was firstly fabricated via a facile hydrothermal reaction coupled with photoreduction strategy, achieving 1 vol% of CO totally oxidized at just 145 degrees C, over 200 degrees C lower than that of Pt/SnO2. Moreover, Pt/In-SnO2 demonstrates superior catalytic stability and recyclability under both dry and humid conditions. Incorporation of In cations results in marked structure distortion of SnO2, promoting the formation of oxygen vacancies and enhancing the concentration and mobility of reactive oxygen species. Abundant Pt sites over Pt/In-SnO2 further accelerate CO adsorption and activation. Density functional theory results prove that the energy barrier of CO oxidation reduces from 0.85 to 0.75 eV after In doping and the produced CO2 can desorb spontaneously from the catalyst surface, which accelerates the CO oxidation process. This work provides new ideas for designing robust catalysts for low-temperature CO elimination. |
内容类型 | 期刊论文 |
源URL | [http://210.75.249.4/handle/363003/60819] |
专题 | 西北高原生物研究所_中国科学院西北高原生物研究所 |
推荐引用方式 GB/T 7714 | Sun, Yukun,Gao, Yang,He, Chi,et al. Efficient and stable low-temperature CO oxidation over Pt/In-SnO2 composite triggered by abundant oxygen vacancies and adsorption sites[J]. CATALYSIS SCIENCE & TECHNOLOGY,2021,11(11). |
APA | Sun, Yukun.,Gao, Yang.,He, Chi.,Song, Weiyu.,Jiang, Zeyu.,...&Bai, Bo.(2021).Efficient and stable low-temperature CO oxidation over Pt/In-SnO2 composite triggered by abundant oxygen vacancies and adsorption sites.CATALYSIS SCIENCE & TECHNOLOGY,11(11). |
MLA | Sun, Yukun,et al."Efficient and stable low-temperature CO oxidation over Pt/In-SnO2 composite triggered by abundant oxygen vacancies and adsorption sites".CATALYSIS SCIENCE & TECHNOLOGY 11.11(2021). |
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