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首页> 外文期刊>Angewandte Chemie >Electroreduction of CO2 on Single-Site Copper-Nitrogen-Doped Carbon Material: Selective Formation of Ethanol and Reversible Restructuration of the Metal Sites
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Electroreduction of CO2 on Single-Site Copper-Nitrogen-Doped Carbon Material: Selective Formation of Ethanol and Reversible Restructuration of the Metal Sites

机译:二氧化碳对单位铜 - 氮掺杂碳材料的电极:选择性形成乙醇,金属位点的可逆重构

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摘要

It is generally believed that CO2 electroreduction to multi-carbon products such as ethanol or ethylene may be catalyzed with significant yield only on metallic copper surfaces, implying large ensembles of copper atoms. Here, we report on an inexpensive Cu-N-C material prepared via a simple pyrolytic route that exclusively feature single copper atoms with a CuN4 coordination environment, atomically dispersed in a nitrogen-doped conductive carbon matrix. This material achieves aqueous CO2 electroreduction to ethanol at a Faradaic yield of 55 % under optimized conditions (electrolyte: 0.1 m CsHCO3, potential: -1.2 V vs. RHE and gas-phase recycling set up), as well as CO electroreduction to C-2-products (ethanol and ethylene) with a Faradaic yield of 80 %. During electrolysis the isolated sites transiently convert into metallic copper nanoparticles, as shown by operando XAS analysis, which are likely to be the catalytically active species. Remarkably, this process is reversible and the initial material is recovered intact after electrolysis.
机译:通常认为,二碳产品如乙醇或乙烯等二碳产品的CO 2电荷仅催化在金属铜表面上,暗示铜原子的大型融合。在此,我们报告通过简单的热解途径制备的廉价的Cu-N-C材料,该途径专门具有具有CUN4配位环境的单铜原子,原子地分散在氮掺杂的导电碳基质中。该材料在优化条件下以55%的55%(电解质:0.1M Cshco3,电位:-1.2V与RHE和气相回收设定),以55%的乙醇达到乙醇的乙醇水溶液,以及CO电荷2-产物(乙醇和乙烯),游览率为80%。在电解过程中,分离的部位瞬时转化成金属铜纳米颗粒,如Outmando XAS分析所示,这可能是催化活性物质。值得注意的是,该过程是可逆的,电解后完整地回收初始材料。

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  • 来源
    《Angewandte Chemie》 |2019年第42期|共6页
  • 作者

    Karapinar Dilan; Huan Ngoc Tran; Sahraie Nastaran Ranjbar; Li Jingkun; Wakerley David; Touati Nadia; Zanna Sandrine; Taverna Dario; Tizei Luiz Henrique Galvao; Zitolo Andrea; Jaouen Frederic; Mougel Victor; Fontecave Marc;

  • 作者单位

    PSL Res Univ Lab Chim Proc Biol CNRS UMR 8229 Coll France Sorbonne Univ 11 Pl Marcelin Berthelot F-75231 Paris 05 France;

    PSL Res Univ Lab Chim Proc Biol CNRS UMR 8229 Coll France Sorbonne Univ 11 Pl Marcelin Berthelot F-75231 Paris 05 France;

    Univ Montpellier Inst Charles Gerhardt Montpellier UMR 5253 CNRS ENSCM 2 Pl Eugene Bataillon F-34095 Montpellier France;

    Univ Montpellier Inst Charles Gerhardt Montpellier UMR 5253 CNRS ENSCM 2 Pl Eugene Bataillon F-34095 Montpellier France;

    PSL Res Univ Lab Chim Proc Biol CNRS UMR 8229 Coll France Sorbonne Univ 11 Pl Marcelin Berthelot F-75231 Paris 05 France;

    PSL Res Univ CNRS Chim ParisTech IRCP 11 Rue Pierre &

    Marie Curie F-75005 Paris France;

    PSL Res Univ CNRS Chim ParisTech IRCP 11 Rue Pierre &

    Marie Curie F-75005 Paris France;

    UPMC Univ Paris 06 Inst Mineral &

    Phys Milieux Condenses UMR CNRS 7590 Sorbonne Univ 4 Pl Jussieu F-75005 Paris France;

    Univ Paris Sud Lab Phys Solides Bat 510 F-91405 Orsay France;

    LOrme Merisiers St Aubin Synchrotron SOLEIL BP 48 F-91192 Gif Sur Yvette France;

    Univ Montpellier Inst Charles Gerhardt Montpellier UMR 5253 CNRS ENSCM 2 Pl Eugene Bataillon F-34095 Montpellier France;

    PSL Res Univ Lab Chim Proc Biol CNRS UMR 8229 Coll France Sorbonne Univ 11 Pl Marcelin Berthelot F-75231 Paris 05 France;

    PSL Res Univ Lab Chim Proc Biol CNRS UMR 8229 Coll France Sorbonne Univ 11 Pl Marcelin Berthelot F-75231 Paris 05 France;

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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

    CO2 electroreduction; copper; ethanol; operando analysis; single-site catalyst;

    机译:CO2电荷;铜;乙醇;Operando分析;单现场催化剂;

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