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Efficient ternary CeFeCoP bifunctional electrocatalyst for overall water splitting

电催化剂 过电位 分解水 析氧 塔菲尔方程 双功能 三元运算 化学 电解水 化学工程 电解 材料科学 无机化学 催化作用 电极 电化学 电解质 物理化学 计算机科学 程序设计语言 光催化 生物化学 工程类
作者
Lieha Shen,Shuihua Tang,Limei Yu,Qiankuan Huang,Tianli Zhou,Shuang Yang,Honglin Yu,Hongxi Xiong,Mingjie Xu,Xiang Zhong,Lei Zhang
出处
期刊:Journal of Solid State Chemistry [Elsevier BV]
卷期号:314: 123434-123434 被引量:14
标识
DOI:10.1016/j.jssc.2022.123434
摘要

Water electrolysis is a prospective technology that can be applied to hydrogen production. Currently, there are many catalysts for water splitting. Cerium (Ce) can be a catalyst itself and it also can be a catalyst promoter due to its flexible coordination and excellent redox ability. Here we try to introduce Ce into FeCoP catalyst, which has been proved to a promising electrocatalyst toward water splitting. The ternary CeFeCoP was prepared by hydrothermal on nickel foam (NF). Then low temperature phosphating is followed. The CeFeCoP/NF shows an efficient electrocatalytic performance. The CeFeCoP/NF electrocatalyst requires overpotential of 298 ​mV at current density of 50 ​mA ​cm −2 for oxygen evolution reaction (OER), much lower than 323 ​mV of FeCoP/NF; and it demands an ultralow overpotential of 97 ​mV to deliver a current density of 10 ​mA ​cm −2 for hydrogen evolution reaction (HER) with respect to 194 ​mV of FeCoP/NF. Moreover, it presents quite smaller Tafel slopes of 114 ​mV dec −1 (OER) and 147 ​mV dec −1 (HER) compared to 153 ​mV dec −1 (OER) and 159 ​mV dec −1 (HER) for FeCoP/NF. When CeFeCoP/NF is used as a bifunctional electrocatalyst for water splitting, a cell voltage of just 1.55 ​V can be achieved at 10 ​mA ​cm −2 , which is much lower than 1.67 ​V of FeCoP/NF electrolyzer. Furthermore, the stability of CeFeCoP/NF electrolyzer can maintain 90% after 10 ​h of chronoamperometry test, displaying an excellent durability. This outstanding performance of CeFeCoP/NF can be attributed to larger electrochemical specific area, easier charge transfer process, and facilitated Ce 3+ ↔ Ce 4+ transformation of CeO 2 after introducing Ce. Here, we will prepare CeFeCoP on nickel foam (NF) via a hydrothermal method followed by low temperature phosphorization. The synthetic process of CeFeCoP/NF is illustrated. • The CeFeCoP was prepared by hydrothermal on nickel foam followed by low-temperature phosphorization. • The bifunctional CeFeCoP/NF exhibits a low overpotential of 97 ​mV at 10 ​mA ​cm −2 for HER and 298 ​mV at 50 ​mA ​cm −2 for OER in 1 ​M KOH, respectively. • A low voltage of 1.55 ​V is achieved at 10 ​mA ​cm −2 for overall water splitting.
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