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首页> 外文期刊>Journal of the American Chemical Society >Quantitative Electro-Reduction of CO_2 to Liquid Fuel over Electro-Synthesized Metal-Organic Frameworks
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Quantitative Electro-Reduction of CO_2 to Liquid Fuel over Electro-Synthesized Metal-Organic Frameworks

机译:在电合金金属 - 有机框架上定量电解到液体燃料的液体燃料

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摘要

Efficient electro-reduction of CO_2 over metal-organic framework (MOF) materials is hindered by the poor contact between thermally synthesized MOF particles and the electrode surface, which leads to low Faradaic efficiency for a given product and poor electrochemical stability of the catalyst. We report a MOF-based electrode prepared via electro-synthesis of MFM-300(In) on an indium foil, and its activity for the electrochemical reduction of CO_2 is assessed. The resultant MFM-300(In)-e/In electrode shows a 1 order of magnitude improvement in conductivity compared with that for MFM-300(In)/carbon-paper electrodes. MFM-300(In)-e/In exhibits a current density of 46.1 mA cm~(-2) at an applied potential of -2.15 V vs Ag/Ag~+ for the electro-reduction of CO_2 in organic electrolyte, achieving an exceptional Faradaic efficiency of 99.1% for the formation of formic acid. The facile preparation of the MFM-300(In)-e/In electrode, coupled with its excellent electrochemical stability, provides a new pathway to develop efficient electro-catalysts for CO_2 reduction.
机译:通过金属有机框架(MOF)材料上的CO_2的高效电解通过热合成的MOF颗粒和电极表面之间的差接触来阻碍,这导致给定产物的低野生效率和催化剂的电化学稳定性差。我们报告了通过在铟箔上的MFM-300(In)的电解制备的基于MOF的电极,评估其用于电化学还原的电化学还原的活性。与MFM-300(IN)/碳波电极相比,所得MFM-300(IN)/ IN电极显示电导率的1级幅度提高。 MFM-300(IN)-E / In在-2.15VVs Ag / Ag〜+的施加电位下表现出46.1 mA cm〜(-2)的电流密度,用于有机电解质中的CO_2的电解,实现A.甲酸形成的特殊竞技效率为99.1%。 MFM-300(IN)/ In电极的容易制剂与其优异的电化学稳定性相结合,提供了一种新的途径,用于显影用于CO_2的有效电催化剂的电催化剂。

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  • 来源
    《Journal of the American Chemical Society》 |2020年第41期|17384-17392|共9页
  • 作者

    Xinchen Kang; Bin Wang; Kui Hu; Kai Lyu; Xue Han; Ben F. Spencer; Mark D. Frogley; Floriana Tuna; Eric J. L. Mclnnes; Robert A. W. Dryfe; Buxing Han; Sihai Yang; Martin Schroder;

  • 作者单位

    Xinchen Kang - Department of Chemistry The University of Manchester Manchester M13 9PL United Kingdom;

    Bin Wang - Department of Chemistry The University of Manchester Manchester Ml 3 9PL United Kingdom;

    Kui Hu - Department of Chemistry The University of Manchester Manchester M13 9PL United Kingdom;

    Kai Lyu - Department of Chemistry The University of Manchester Manchester Ml 3 9PL United Kingdom;

    Xue Han - Department of Chemistry The University of Manchester Manchester M13 9PL United Kingdom;

    Ben F. Spencer - Department of Materials The University of Manchester Manchester Ml 3 9PL United Kingdom;

    Mark D. Frogley - Diamond Light Source Oxfordshire OX110DE United Kingdom;

    Floriana Tuna - Department of Chemistry and Photon Science Institute The University of Manchester Manchester M13 9PL United Kingdom;

    Eric J. L. Mclnnes - Department of Chemistry The University of Manchester Manchester M13 9PL United Kingdom;

    Robert A. W. Dryfe - Department of Chemistry The University of Manchester Manchester M13 9PL United Kingdom;

    Buxing Han - Beijing National Laboratory for Molecular Sciences CAS Key Laboratory of Colloid Interface and Chemical Thermodynamics Institute of Chemistry Chinese Academy of Sciences Beijing 100190 China;

    Sihai Yang - Department of Chemistry The University of Manchester Manchester M13 9PL United Kingdom;

    Martin Schroder - Department of Chemistry The University of Manchester Manchester Ml 3 9PL United Kingdom;

  • 收录信息 美国《科学引文索引》(SCI);美国《工程索引》(EI);美国《生物学医学文摘》(MEDLINE);美国《化学文摘》(CA);
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  • 正文语种 eng
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  • 入库时间 2022-08-18 22:16:51

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