异质结
电解
材料科学
格子(音乐)
尿素
木质素
拉伤
化学工程
光电子学
化学
物理化学
有机化学
电极
医学
物理
内科学
声学
工程类
电解质
作者
Liancen Li,Lei Ge,Guangfu Qian,Yunpeng Wang,Jiawei Li,Xinyu Cao,Yihao Xu,Ruyu Zhang,Jinli Chen,Panagiotis Tsiakaras
标识
DOI:10.1016/j.apcatb.2025.125465
摘要
Although nickel-based catalysts exhibit certain urea electrolysis performance, their application is hindered by the sluggish indirect or direct urea oxidation reaction (UOR) and either the Volmer-Tafel or Heyrovsky mechanism of hydrogen evolution reaction (HER). Herein, we propose utilizing interfacial lattice strain and electronic transfer induced by lignin-derived carbon coupled with Ni-Mn 2 Mo 3 O 8 heterojunction (denoted as Ni-Mn 2 Mo 3 O 8 @C) to increase the lattice imperfection and adjust electronic structure, enhancing its urea electrolysis activity. Ni-Mn 2 Mo 3 O 8 @C exhibits low potentials for UOR ( E 10/1000/2000mA = 1.21/1.33/1.41 V) and HER ( E -10/-1000/-2000mA = -52.57/-329.41/-362.46 mV), which undergoes fast direct oxidation reaction for UOR and Volmer-Heyrovsky steps for HER. Meanwhile, Ni-Mn 2 Mo 3 O 8 @C operates stably at 1000 mA cm −2 for 140 hours in membrane electrode assembly, due to the corrosion resistance of lignin-derived carbon and superhydrophilicity of self-supported porous structure. This work proposes a promising catalyst for HER/UOR and demonstrates a feasible route to designing nickel-based catalysts in practical applications of urea electrolysis.
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