Facile synthesis of interlaced flower-like layered double hydroxides grown on porous CoMoP as a highly efficient electrocatalyst for hydrogen evolution reaction

过电位 电催化剂 塔菲尔方程 材料科学 层状双氢氧化物 化学工程 无机化学 催化作用 化学 冶金 电化学 氢氧化物 电极 有机化学 物理化学 工程类
作者
Yasamin Shajirati,Mohamad Mohsen Momeni,Meysam Tayebi,Byeong–Kyu Lee
出处
期刊:Energy [Elsevier BV]
卷期号:278: 127840-127840 被引量:35
标识
DOI:10.1016/j.energy.2023.127840
摘要

Rational morphology design and electronic structure modulation of efficient and durable electrocatalyst for hydrogen evolution reaction (HER) are urgent and challenging tasks to solve the large overpotential problems currently required. Herein, this study investigated the effect of dual electrodeposition and doping on the HER performance of electrocatalysts. Highly porous cobalt molybdenum phosphate (CoMoP) was used as a support for three different layered double hydroxides (LDHs)including cobalt nickel (CoNi), nickel iron (NiFe), and cobalt iron (CoFe). CoFe-LDH/CoMoP electrodeposited on nickel foam (NF) only need 22.5 mV overpotential to reach current response of 30 mA cm−2. To be used as a HER electrocatalyst, however, NiFe-LDH/CoMoP/NF (383 mV) and CoNi-LDH/CoMoP/NF (117 mV) require much higher overpotential than that of CoFe-LDH/CoMoP/NF. The newly developed porous CoFe-LDH/CoMoP/NF works well as an active HER electrocatalyst in the alkaline medium with a low overpotential. In the analysis of the second electrodeposition effect on HER performance of the three developed LDHs, the second electrodeposited CoFe-LDH/CoMoP/NF electrocatalyst showed greatly decreased Tafel slope and overpotential at a constant time as compared to the first electrodeposition. Considering their superior HER performance and keeping good stability even after 19 h, the developed electrocatalysts could be an excellent replacement for non-noble-metal HER catalysts.
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