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云师大能环学院邓书康教授课题组在top期刊《ACS Sustainable Chem. Eng. 》上发表...

已有 1507 次阅读 2024-3-28 14:09 |个人分类:云师大研究|系统分类:论文交流

     2024年3月21日,ACS旗下国际著名期刊《ACS Sustainable Chemistry & Engineering》在线发表了云南师范大学能源与环境科学学院​邓书康教授课题组的最新研究成果《Activating Lattice Oxygen in a Nanoporous Crystalline/Amorphous NiFe(II, III)OxHy Heterostructure for Electrocatalytic Water Oxidation with Ampere-Level Activity and Durability》。云南师范大学能源与环境科学学院邓书康教授为通讯作者。昆明理工大学王劲松为共同通讯作者。

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Abstract

Abstract Image

Developing oxygen evolution reaction (OER) electrocatalysts with ampere-level activity and durability is an open challenge toward the final industrial application. Here, a nanoporous crystalline/amorphous nickel–iron oxyhydroxide heterostructure with abundant Fe2+ (c/a NiFe(II, III)OxHy) by partially substituting Ni2+ with Fe2+ is reported. Combination of X-ray absorption spectroscopy, in situ Raman, and density functional theory investigation suggested that the crystalline/amorphous structure with abundant cation defects and oxygen vacancy is conducive to lattice oxygen oxidation mechanism (LOM) and enhances OER kinetics. Fe2+ acts as an electron-sacrificing band to protect Fe3+ from overoxidation and promote the chemical stability. Meanwhile, the nanoporous structure can accelerate the detachment of the O2 and minimize structural oscillations to strengthen the mechanical stability. As a result, the c/a NiFe(II, III)OxHy catalyst not only exhibits superior electrocatalytic activity with an ultralow overpotential of 192 mV at 10 mA/cm2 and a Tafel slope of 41.8 mV/dec but also delivers industrial stability over 200 h at a current density of 1000 mA/cm2. This work provides a simple strategy and fundamental understanding for the development of industrial OER electrocatalysts.

https://pubs.acs.org/doi/10.1021/acssuschemeng.4c00318



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