材料科学
分解水
阳极
析氧
电化学
催化作用
制作
电解水
化学工程
电解
纳米技术
电解质
电催化剂
氢
纳米颗粒
制氢
电解槽
氧气
纳米结构
无机化学
钌
过渡金属
氧化还原
工作温度
电极
氢燃料
单排替反应
燃料电池
作者
Jie Yang,Pengfei Xia,L Qiao
标识
DOI:10.1021/acsami.5c21870
摘要
Electrochemical water splitting is a clean technology for hydrogen generation; however, the deliberate fabrication of exceptionally active and long-term stable electrocatalysts capable of operating under pH-universal conditions remains a formidable obstacle. In this work, we demonstrate a simple method to achieve ultrathin nanoplates (NPs) for enhanced water-splitting electrocatalysis. The as-prepared Ru NPs feature an ultrathin structure with abundant pits and exhibit excellent catalytic performance toward the oxygen evolution reaction (OER) and hydrogen evolution reaction (HER) in pH-universal environments. The Ru NPs were heat-treated at 250 °C and denoted as Ru NPs-250 °C. With synthesized Ru NPs-250 °C as the anode and reference Ru NPs as the cathode, the electrolytic cell drives overall water splitting at 10 mA cm-2, requiring applied cell potentials of 1.48 V (0.5 M H2SO4), 1.53 V (0.05 M H2SO4), 1.50 V (1 M KOH), and 1.51 V (0.1 M KOH). The values are considerably superior to those of the commercial IrO2-Pt/C electrolyzer. Furthermore, the Ru NPs-250 °C-Ru NPs electrolyzer maintains robust stability during extended electrolysis, exhibiting its great potential for practical water-splitting applications.
科研通智能强力驱动
Strongly Powered by AbleSci AI