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首页> 外文期刊>ACS applied materials & interfaces >Highly Efficient and Stable Catalyst Based on Co(OH)(2)@Ni Electroplated on Cu-Metallized Cotton Textile for Water Splitting
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Highly Efficient and Stable Catalyst Based on Co(OH)(2)@Ni Electroplated on Cu-Metallized Cotton Textile for Water Splitting

机译:基于Co(OH)(2)@NI电镀的高效稳定的催化剂在Cu-Metallized棉纺织上进行水分裂

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摘要

The concept of using renewable energy to power water electrolyzers is seen as a favorable approach for the production of green and sustainable hydrogen. The electrochemical water splitting can be significantly and efficiently enhanced using bifunctional catalysts, which are active toward both oxygen evolution reaction (OER) and hydrogen evolution reaction (HER). Herein, a stable and high-performance catalyst based on hybrid-metal/metal-hydroxide nanosheet arrays electroplated onto Cu-metallized cotton textile (Co(OH)(2)@Ni) was designed and fabricated as a bifunctional electrocatalyst for complete water-splitting reactions. It was found that the interconnected alpha-Co(OH)(2) nanosheets were evenly formed onto the metalized cotton textile, and the optimized Co(OH)(2)@Ni sample exhibited an overpotential of +96 mV at 10 mA cm(-2), with excellent stability toward HER. The as-prepared catalyst also showed superior electrochemical activity and durability toward OER, which was found to be comparable to those of conventional precious group metal-based catalysts. In addition, when Co(OH)(2)@Ni were assembled as electrodes in a water electrolyzer (1 M KOH), a cell voltage of 1.640 V was achieved at a current density of 10 mA cm(-2), enabling it to be a promising bifunctional catalyst for water electrolysis in real applications.
机译:使用可再生能源到电力电解器的概念被视为生产绿色和可持续氢的有利方法。使用双官能催化剂可以显着和有效地增强电化学水分,这对于氧气进化反应(Oer)和氢进化反应(她)有效。在此,基于杂化 - 金属/金属 - 氢氧化物纳米晶片阵列的稳定和高性能催化剂在Cu-Metallized棉纺织品上(CO(OH)(2)(2))设计并制造为完全水的双功能电催化剂 - 分裂反应。结果发现,相互连接的α-CO(OH)(2)纳米片均匀地形成在金属化棉纺织品上,优化的CO(OH)(2)@ni样品在10 mA cm( -2),对她的稳定性良好。制备的催化剂还显示出优异的电化学活性和朝向伊尔的耐久性,其发现与常规贵碱基金属基催化剂相当。另外,当CO(OH)(2)@NI作为电极电解槽(1M KOH)中的电极组装时,在10 mA cm(-2)的电流密度下实现1.640V的电池电压,使其实现成为实际应用中的水电解的有希望的双官能催化剂。

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  • 来源
    《ACS applied materials & interfaces》 |2019年第33期|共8页
  • 作者

    Wang Zining; Ji Shan; Liu Fusheng; Wang Hui; Wang Xuyun; Wang Qizhao; Pollet Bruno G.; Wang Rongfang;

  • 作者单位

    Qingdao Univ Sci &

    Technol Coll Chem Engn State Key Lab Base Ecochem Engn Qingdao 266042 Shandong Peoples R China;

    Qingdao Univ Sci &

    Technol Coll Chem Engn State Key Lab Base Ecochem Engn Qingdao 266042 Shandong Peoples R China;

    Qingdao Univ Sci &

    Technol Coll Chem Engn State Key Lab Base Ecochem Engn Qingdao 266042 Shandong Peoples R China;

    Qingdao Univ Sci &

    Technol Coll Chem Engn State Key Lab Base Ecochem Engn Qingdao 266042 Shandong Peoples R China;

    Qingdao Univ Sci &

    Technol Coll Chem Engn State Key Lab Base Ecochem Engn Qingdao 266042 Shandong Peoples R China;

    Northwest Normal Univ Coll Chem &

    Chem Engn Lanzhou 730070 Gansu Peoples R China;

    Norwegian Univ Sci &

    Technol NTNU Fac Engn Dept Energy &

    Proc Engn NO-7491 Trondheim Norway;

    Qingdao Univ Sci &

    Technol Coll Chem Engn State Key Lab Base Ecochem Engn Qingdao 266042 Shandong Peoples R China;

  • 收录信息
  • 原文格式 PDF
  • 正文语种 eng
  • 中图分类 化学工业;
  • 关键词

    alpha-Co(OH)(2); hydrogen evolution reaction; oxygen evolution reaction; bifunctional catalyst; water electrolysis;

    机译:α-Co(OH)(2);氢进化反应;氧气进化反应;双官能催化剂;水电解;
  • 入库时间 2022-08-20 16:31:12

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