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首页> 外文期刊>Angewandte Chemie >Intrinsic Electrocatalytic Activity for Oxygen Evolution of Crystalline 3d-Transition Metal Layered Double Hydroxides
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Intrinsic Electrocatalytic Activity for Oxygen Evolution of Crystalline 3d-Transition Metal Layered Double Hydroxides

机译:结晶3D-过渡金属层双氢氧化物的氧气进化的固有电催化活性

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摘要

Layered double hydroxides (LDHs) are among the most active and studied catalysts for the oxygen evolution reaction (OER) in alkaline electrolytes. However, previous studies have generally either focused on a small number of LDHs, applied synthetic routes with limited structural control, or used non-intrinsic activity metrics, thus hampering the construction of consistent structure-activity-relations. Herein, by employing new individually developed synthesis strategies with atomic structural control, we obtained a broad series of crystalline alpha-M-A(II)M-B(III) LDH and beta-M-A(OH)(2) electrocatalysts (M-A=Ni, Co, and M-B=Co, Fe, Mn). We further derived their intrinsic activity through electrochemical active surface area normalization, yielding the trend NiFe LDH > CoFe LDH > Fe-free Co-containing catalysts > Fe-Co-free Ni-based catalysts. Our theoretical reactivity analysis revealed that these intrinsic activity trends originate from the dual-metal-site nature of the reaction centers, which lead to composition-dependent synergies and diverse scaling relationships that may be used to design catalysts with improved performance.
机译:层状双氢氧化物(LDHs)是碱性电解液中最活跃和研究最多的析氧反应催化剂之一。然而,以前的研究通常集中在少数LDH上,应用结构控制有限的合成路线,或使用非内在活性指标,从而阻碍了一致性结构-活性关系的构建。在此,通过采用原子结构控制的新的单独开发的合成策略,我们获得了一系列广泛的晶体α-M-a(II)M-B(III)LDH和β-M-a(OH)(2)电催化剂(M-a=Ni,Co,M-B=Co,Fe,Mn)。通过电化学活性表面积归一化,我们进一步得出了它们的固有活性,得出了NiFe-LDH>CoFe-LDH>含Fe-Co催化剂>无Fe-Co镍基催化剂的趋势。我们的理论反应性分析表明,这些内在活性趋势源自反应中心的双金属位性质,这导致了成分相关的协同效应和多样的标度关系,可用于设计具有改进性能的催化剂。

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  • 来源
    《Angewandte Chemie》 |2021年第26期|共12页
  • 作者

    Dionigi Fabio; Zhu Jing; Zeng Zhenhua; Merzdorf Thomas; Sarodnik Hannes; Gliech Manuel; Pan Lujin; Li Wei-Xue; Greeley Jeffrey; Strasser Peter;

  • 作者单位

    Tech Univ Berlin Dept Chem Div Chem Engn Electrochem Energy Catalysis &

    Mat Sci Lab Str 17 Juni 124 D-10623 Berlin Germany;

    Univ Sci &

    Technol China CAS Excellence Ctr Nanosci Hefei Natl Lab Phys Sci Microscale Sch Chem &

    Mat Sci Hefei 230026 Anhui Peoples R China;

    Purdue Univ Davidson Sch Chem Engn W Lafayette IN 47907 USA;

    Tech Univ Berlin Dept Chem Div Chem Engn Electrochem Energy Catalysis &

    Mat Sci Lab Str 17 Juni 124 D-10623 Berlin Germany;

    Tech Univ Berlin Dept Chem Div Chem Engn Electrochem Energy Catalysis &

    Mat Sci Lab Str 17 Juni 124 D-10623 Berlin Germany;

    Tech Univ Berlin Dept Chem Div Chem Engn Electrochem Energy Catalysis &

    Mat Sci Lab Str 17 Juni 124 D-10623 Berlin Germany;

    Tech Univ Berlin Dept Chem Div Chem Engn Electrochem Energy Catalysis &

    Mat Sci Lab Str 17 Juni 124 D-10623 Berlin Germany;

    Univ Sci &

    Technol China CAS Excellence Ctr Nanosci Hefei Natl Lab Phys Sci Microscale Sch Chem &

    Mat Sci Hefei 230026 Anhui Peoples R China;

    Purdue Univ Davidson Sch Chem Engn W Lafayette IN 47907 USA;

    Tech Univ Berlin Dept Chem Div Chem Engn Electrochem Energy Catalysis &

    Mat Sci Lab Str 17 Juni 124 D-10623 Berlin Germany;

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

    electrochemical surface area; hydrothermal synthesis; layered double hydroxides; oxygen evolution reaction; water splitting;

    机译:电化学比表面积;水热合成;层状双氢氧化物;析氧反应;水分解;

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