Ball-milled Ni@Mo₂C/C nanocomposites as efficient electrocatalysts for urea oxidation.

IF 5.8 3区环境科学与生态学 0 ENVIRONMENTAL SCIENCES Environmental Science and Pollution Research Pub Date : 2025-02-10 DOI:10.1007/s11356-025-36030-1

Dilip Kumar Tiwari, Tapan Kumar Ghosh, Anju Vakakuzhiyil Gopinathan, Ranga Rao Gangavarapu

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Abstract

Urea oxidation reaction (UOR) has been identified as a promising method for hydrogen production and the remediation of urea-rich wastewater by electrochemical techniques. In the present work, Ni/C and Ni@Mo₂C(x)/C electrocatalysts (x = 0.1, 0.2, 0.4, and 0.6 mol fraction of Mo₂C in Ni@Mo₂C) are prepared by ball milling method followed by annealing at 800 °C for 2 h under nitrogen atmosphere. Electrooxidation of urea is carried out using these electrocatalysts in an alkaline solution. Among them, the Ni@Mo₂C(0.4)/C catalyst shows a maximum current density of 96.5 mA cm^-2 at 1.7 V (versus RHE) in 1 M KOH and 0.33 M urea electrolyte. The Ni@Mo₂C(0.4)/C catalyst exhibits better catalytic activity, low overpotential, and charge transfer resistance with extremely low Tafel slope compared to other compositions for UOR. The synergistic electronic effect between Ni and Mo₂C components is responsible for generating active sites and facilitating the catalytic activity of UOR. The Ni@Mo₂C(x)/C electrocatalysts are promising for treating urea-rich wastewaters and for use as a substitute for suppressing OER in water-splitting reactions.

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球磨Ni@Mo2C/C纳米复合材料作为尿素氧化的高效电催化剂。

尿素氧化反应（UOR）已被认为是一种很有前途的制氢方法和电化学技术修复富尿素废水的方法。本文采用球磨法制备了Ni/C和Ni@Mo2C(x)/C电催化剂（x = 0.1、0.2、0.4和0.6 mol分数的Ni@Mo2C中Mo2C），并在氮气气氛下800℃退火2 h。用这些电催化剂在碱性溶液中进行尿素的电氧化。其中，Ni@Mo2C(0.4)/C催化剂在1 M KOH和0.33 M尿素电解质条件下，在1.7 V（相对于RHE）条件下，最大电流密度为96.5 mA cm-2。与其他UOR组合物相比，Ni@Mo2C(0.4)/C催化剂具有更好的催化活性、低过电位、极低的塔菲尔斜率和电荷转移电阻。Ni和Mo2C组分之间的协同电子效应产生了活性位点，提高了UOR的催化活性。Ni@Mo2C(x)/C电催化剂有望用于处理富尿素废水，并在水分解反应中用作抑制OER的替代品。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Environmental Science and Pollution Research 环境科学-环境科学

CiteScore

8.70

自引率

17.20%

发文量

6549

审稿时长

3.8 months

期刊介绍： Environmental Science and Pollution Research (ESPR) serves the international community in all areas of Environmental Science and related subjects with emphasis on chemical compounds. This includes: - Terrestrial Biology and Ecology - Aquatic Biology and Ecology - Atmospheric Chemistry - Environmental Microbiology/Biobased Energy Sources - Phytoremediation and Ecosystem Restoration - Environmental Analyses and Monitoring - Assessment of Risks and Interactions of Pollutants in the Environment - Conservation Biology and Sustainable Agriculture - Impact of Chemicals/Pollutants on Human and Animal Health It reports from a broad interdisciplinary outlook.