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首页> 外文期刊>Angewandte Chemie >Electrochemical Oxidation of 5-Hydroxymethylfurfural on Nickel Nitride/Carbon Nanosheets: Reaction Pathway Determined by In Situ Sum Frequency Generation Vibrational Spectroscopy
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Electrochemical Oxidation of 5-Hydroxymethylfurfural on Nickel Nitride/Carbon Nanosheets: Reaction Pathway Determined by In Situ Sum Frequency Generation Vibrational Spectroscopy

机译:氮化镍/碳纳米晶镍的5-羟甲基糠醛的电化学氧化:通过原位和频率产生振动光谱测定的反应途径

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摘要

2,5-Furandicarboxylic acid was obtained from the electrooxidation of 5-hydroxymethylfurfural (HMF) with non-noble metal-based catalysts. Moreover, combining the biomass oxidation with the hydrogen evolution reaction (HER) increased the energy conversion efficiency of an electrolyzer and also generated value-added products at both electrodes. Here, the reaction pathway on the surface of a carbon-coupled nickel nitride nanosheet (Ni3N@C) electrode was evaluated by surface-selective vibrational spectroscopy using sum frequency generation (SFG) during the electrochemical oxidation. The Ni3N@C electrode shows catalytic activities for HMF oxidation and the HER. As the first in situ SFG study on transition-metal nitride for the electrooxidation upgrade of HMF, this work not only demonstrates that the reaction pathway of electrochemical oxidation but also provides an opportunity for nonprecious metal nitrides to simultaneously upgrade biomass and produce H-2 under ambient conditions.
机译:用非贵金属基催化剂的5-羟甲基糠醛(HMF)的电氧化获得2,5-呋喃羧酸。 此外,将生物质氧化与氢进化反应(其)组合增加了电解槽的能量转换效率,并在两个电极处产生了增值产物。 这里,通过在电化学氧化期间使用Sub频率产生(SFG),通过表面选择性振动光谱评估碳偶极镍氮化物纳米片(Ni3N @ C)电极的表面上的反应途径。 Ni3N @ C电极显示HMF氧化和她的催化活性。 作为第一个原位SFG研究过渡金属氮化物用于HMF的电氧化升级,这项工作不仅证明了电化学氧化的反应途径,而且为非普烈金属氮化物提供了同时升级生物质并在下方产生H-2的机会 环境条件。

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  • 来源
    《Angewandte Chemie》 |2019年第44期|共9页
  • 作者

    Zhang Nana; Zou Yuqin; Tao Li; Chen Wei; Zhou Ling; Liu Zhijuan; Zhou Bo; Huang Gen; Lin Hongzhen; Wang Shuangyin;

  • 作者单位

    Hunan Univ Coll Chem &

    Chem Engn Prov Hunan Key Lab Graphene Mat &

    Devices State Key Lab Chemo Biosensing &

    Chemometr Changsha 410082 Hunan Peoples R China;

    Hunan Univ Coll Chem &

    Chem Engn Prov Hunan Key Lab Graphene Mat &

    Devices State Key Lab Chemo Biosensing &

    Chemometr Changsha 410082 Hunan Peoples R China;

    Hunan Univ Coll Chem &

    Chem Engn Prov Hunan Key Lab Graphene Mat &

    Devices State Key Lab Chemo Biosensing &

    Chemometr Changsha 410082 Hunan Peoples R China;

    Hunan Univ Coll Chem &

    Chem Engn Prov Hunan Key Lab Graphene Mat &

    Devices State Key Lab Chemo Biosensing &

    Chemometr Changsha 410082 Hunan Peoples R China;

    Hunan Univ Coll Chem &

    Chem Engn Prov Hunan Key Lab Graphene Mat &

    Devices State Key Lab Chemo Biosensing &

    Chemometr Changsha 410082 Hunan Peoples R China;

    Hunan Univ Coll Chem &

    Chem Engn Prov Hunan Key Lab Graphene Mat &

    Devices State Key Lab Chemo Biosensing &

    Chemometr Changsha 410082 Hunan Peoples R China;

    Hunan Univ Coll Chem &

    Chem Engn Prov Hunan Key Lab Graphene Mat &

    Devices State Key Lab Chemo Biosensing &

    Chemometr Changsha 410082 Hunan Peoples R China;

    Hunan Univ Coll Chem &

    Chem Engn Prov Hunan Key Lab Graphene Mat &

    Devices State Key Lab Chemo Biosensing &

    Chemometr Changsha 410082 Hunan Peoples R China;

    Chinese Acad Sci Suzhou Inst Nanotech &

    Nanobion SINANO I LAB Suzhou 215123 Peoples R China;

    Hunan Univ Coll Chem &

    Chem Engn Prov Hunan Key Lab Graphene Mat &

    Devices State Key Lab Chemo Biosensing &

    Chemometr Changsha 410082 Hunan Peoples R China;

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  • 原文格式 PDF
  • 正文语种 eng
  • 中图分类 应用化学;
  • 关键词

    biomass; electrocatalysis; reaction mechanisms; surface chemistry; vibrational spectroscopy;

    机译:生物质;电催化;反应机制;表面化学;振动光谱;

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