塔菲尔方程
材料科学
过电位
析氧
介孔材料
催化作用
合金
化学工程
分解水
电解
过渡金属
金属
电解水
纳米技术
腐蚀
电催化剂
碱性水电解
无机化学
电流密度
双功能
作者
Fulin Li,Sun Tingting,Tingming Xu,Simin He,Shixi Hu,Lianbin Xu
标识
DOI:10.1021/acsami.5c19359
摘要
Improving the kinetics of the oxygen evolution reaction (OER) is critical for the widespread adoption and application of water electrolysis technology, which has become a key strategy in addressing energy and environmental challenges. Ni-based transition metal alloy catalysts offer several advantages, including high catalytic capability, tunable composition, low cost, excellent corrosion resistance, and environmental friendliness, making them highly attractive for catalyzing OER in alkaline electrolysis. In this study, we synthesized a series of highly ordered mesoporous NiCoFe alloy nanospheres (OM-NiCoFe) with varying elemental compositions and uniform sphere diameters using a facile wet chemical reduction method and evaluated their OER performance in alkaline media. Owing to their unique ordered mesoporous structure, which promotes mass transport, increases specific surface area, and enhances the accessibility of active sites, combined with the synergistic catalytic effect among different metal elements, the OM-NiCoFe catalysts achieved high current densities (>500 mA cm-2) at potentials below 1.7 V vs RHE during the OER process. Notably, the OM-Ni47Co35Fe18 sample, with the optimal elemental composition, exhibited a low overpotential of 193 mV at 10 mA cm-2, a small Tafel slope of 32.2 mV dec-1, and excellent stability (with negligible potential change at a current density of 200 mA cm-2 for 120 h), outperforming other reference samples and most Ni-based OER electrocatalysts. This work presents an effective strategy for preparing ordered mesoporous spherical metallic materials that not only deliver competitive OER performance but also offer a versatile platform for applications in energy conversion and storage, adsorption, and magnetism.
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