格式化
甲醇
催化作用
无机化学
电催化剂
锰
化学
材料科学
物理化学
电化学
有机化学
电极
作者
Xinlin Wang,Fan Zhou,Yunfei Gao,Yuhang Li,Bingxue Cheng,Toru Murayama,Tamao Ishida,M. C. Lin,Guangli Xiu
标识
DOI:10.1021/acssuschemeng.4c10791
摘要
Understanding the structure–activity relationships in perovskite catalysts is essential for advancing renewable electrochemical energy technologies. This study reports the exceptional performance of LaMnO 3 deposited on nickel foam (NF) electrodes in selective methanol electrooxidation. Experimental analyses reveal that the preferred crystalline facets of LaMnO 3 grown on nickel foams predominantly generate {110} facets, and this facet engineering effectively promotes the adsorption of methanol molecules. Moreover, the electronic structure of the Mn–O bonds on the LaMnO 3 surface has been optimized, resulting in good activity and approximately 100% Faradaic efficiency (FE) at current densities ranging from 100 to 500 mA cm –2 . Notably, the total FE for formate demonstrates durability for up to 10 h at 100 mA cm –2, with selectivity exceeding 86%. This results in a substantial reduction (∼15.88%) in energy consumption for producing pure hydrogen. In situ studies indicate that the unique structure of LaMnO 3 /NF facilitates the formation of high-valent active Mn–O species and stabilizes the crystalline framework through an interfacial Mn–O network. This configuration provides abundant active sites and oxygen sources for converting methanol to formate, establishing a stable and efficient catalytic environment.
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