法拉第效率
电催化剂
铋
格式化
材料科学
二氧化碳电化学还原
电解
催化作用
化学工程
纳米技术
电化学
无机化学
化学
电极
电解质
有机化学
冶金
工程类
物理化学
一氧化碳
作者
Na Han,Yu Wang,Hui Yang,Jun Deng,Jinghua Wu,Yafei Li,Yanguang Li
标识
DOI:10.1038/s41467-018-03712-z
摘要
Electrocatalytic carbon dioxide reduction to formate is desirable but challenging. Current attention is mostly focused on tin-based materials, which, unfortunately, often suffer from limited Faradaic efficiency. The potential of bismuth in carbon dioxide reduction has been suggested but remained understudied. Here, we report that ultrathin bismuth nanosheets are prepared from the in situ topotactic transformation of bismuth oxyiodide nanosheets. They process single crystallinity and enlarged surface areas. Such an advantageous nanostructure affords the material with excellent electrocatalytic performance for carbon dioxide reduction to formate. High selectivity (~100%) and large current density are measured over a broad potential, as well as excellent durability for >10 h. Its selectivity for formate is also understood by density functional theory calculations. In addition, bismuth nanosheets were coupled with an iridium-based oxygen evolution electrocatalyst to achieve efficient full-cell electrolysis. When powered by two AA-size alkaline batteries, the full cell exhibits impressive Faradaic efficiency and electricity-to-formate conversion efficiency.
科研通智能强力驱动
Strongly Powered by AbleSci AI