氧还原反应
电池(电)
氮气
还原(数学)
氧原子
对偶(语法数字)
Atom(片上系统)
氧气
接口(物质)
氮原子
锌
氧还原
材料科学
无机化学
化学
电极
计算机科学
冶金
物理
电化学
物理化学
分子
嵌入式系统
功率(物理)
吸附
戒指(化学)
有机化学
艺术
数学
文学类
量子力学
吉布斯等温线
几何学
作者
Konglin Wu,Sha Li,Chuan Hu,Guoqiang Wen,Xuezhi Zeng,Mingyue Wang,Jieyue Wang,Mengyuan Chu,Hengshuai Shang,Mingfu Ye,Wenhai Wang,Fanghui Wu,Shengjie Peng
标识
DOI:10.1016/j.apcatb.2024.124288
摘要
Developing nonprecious catalysts with excellent behaviors for oxygen reduction reaction (ORR) has assumed considerable importance, but remains an arduous issue. Herein, we demonstrate a Kirkendall effect-pyrolysis (KEP) strategy to construct N-bridged Cu-Zn dual-atom supported on hollow N-doped carbon (Cu-Zn DA/HNC) for ORR. The hollow structure of N-doped carbon facilitates mass transfer and exposes more actives. What's more, the shared N atom between Cu and Zn atoms is beneficial to enhance their synergetic effect, creating an appropriately enhanced O* binding. The resulting Cu-Zn DA/HNC displays excellent ORR activity in an alkaline electrolyte, following a nearly four-electron pathway of ORR. Even employing Cu-Zn DA/HNC as the cathode in ZABs, Cu-Zn DA/HNC presents a long cycling life up to 910 h and robust low-temperature adaptability. The facile and straightforward fabrication plus the outstanding ORR performance of Cu-Zn DA/HNC endows its great potential as a significant candidate in practical applications of ZAB.
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