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首页> 外文期刊>ACS catalysis >Bimetallic Composition-Promoted Electrocatalytic Hydrodechlorination Reaction on Silver-Palladium Alloy Nanoparticles
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Bimetallic Composition-Promoted Electrocatalytic Hydrodechlorination Reaction on Silver-Palladium Alloy Nanoparticles

机译:双金属组成 - 促进银钯合金纳米粒子上的电催化水解反应

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摘要

Studies of the electrocatalytic hydrodechlorination (EHDC) reaction using monodisperse AgPd nanoparticle (NP) model catalysts in the present work reveal the essential role of the catalytically inert Ag component in promoting bimetallic nanocatalyst's activity for the conversion of 2,4-dichlorophenol (2,4-DCP) to phenol (P). The EHDC reaction rate, current efficiency, and product selectivity were systematically investigated, leading to the observation of a volcano-type activity dependence on the Ag content in bimetallic NPs. The combination of kinetics analyses and density functional theory calculations demonstrates that the balance of 2,4-DCP adsorption and P desorption is the dominant factor for EHDC efficiency rather than other processes (e.g., hydrogen adsorbent formation). The presence of Ag, if precisely controlled in the proper range, alleviates the overstrong adsorption of P, allowing for a much enhanced EHDC kinetics compared to single-component Pd. This work provides a deep understanding of the EHDC mechanism over bimetallic nanocatalysts and a facile approach to optimizing this important environmental electrocatalysis strategy.
机译:使用单分散性AGPD纳米粒子(NP)模型催化剂的电催化水解氯化物(EHDC)反应揭示了催化惰性AG组分在促进双金属纳米催化剂的转化率为2,4-二氯苯酚的活性方面的基本作用(2,4 -dcp)至苯酚(p)。系统地研究了EHDC反应速率,电流效率和产品选择性,从而观察了对Bimetallic NPS中Ag含量的火山型活性依赖性。动力学分析和密度官能理论计算的组合表明,2,4-DCP吸附和P去吸附的平衡是EHDC效率而不是其他方法的主要因素(例如,氢吸附形成)。如果精确地控制在适当的范围内,则AG的存在缓解了P的过度吸附,与单组分PD相比,允许大量增强的EHDC动力学。这项工作深入了解对双金属纳米催化剂的EHDC机制以及优化这一重要环境电常放策略的舒适方法。

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  • 来源
    《ACS catalysis》 |2019年第12期|共9页
  • 作者

    Peng Yiyin; Cui Meiyang; Zhang Zhiyong; Shu Song; Shi Xuelin; Brosnahan John T.; Liu Chang; Zhang Yulu; Godbold Perrin; Zhang Xianming; Dong Fan; Jiang Guangming; Zhang Sen;

  • 作者单位

    Chongqing Technol &

    Business Univ Minist Educ Engn Res Ctr Waste Oil Recovery Technol &

    Equipme Chongqing 400067 Peoples R China;

    Univ Virginia Dept Chem Charlottesville VA 22904 USA;

    Univ Virginia Dept Chem Charlottesville VA 22904 USA;

    Chongqing Technol &

    Business Univ Minist Educ Engn Res Ctr Waste Oil Recovery Technol &

    Equipme Chongqing 400067 Peoples R China;

    Chongqing Technol &

    Business Univ Minist Educ Engn Res Ctr Waste Oil Recovery Technol &

    Equipme Chongqing 400067 Peoples R China;

    Univ Virginia Dept Chem Charlottesville VA 22904 USA;

    Univ Virginia Dept Chem Charlottesville VA 22904 USA;

    Univ Virginia Dept Chem Charlottesville VA 22904 USA;

    Univ Virginia Dept Chem Charlottesville VA 22904 USA;

    Chongqing Technol &

    Business Univ Minist Educ Engn Res Ctr Waste Oil Recovery Technol &

    Equipme Chongqing 400067 Peoples R China;

    Chongqing Technol &

    Business Univ Minist Educ Engn Res Ctr Waste Oil Recovery Technol &

    Equipme Chongqing 400067 Peoples R China;

    Chongqing Technol &

    Business Univ Minist Educ Engn Res Ctr Waste Oil Recovery Technol &

    Equipme Chongqing 400067 Peoples R China;

    Univ Virginia Dept Chem Charlottesville VA 22904 USA;

  • 收录信息
  • 原文格式 PDF
  • 正文语种 eng
  • 中图分类 物理化学(理论化学)、化学物理学;
  • 关键词

    electrocatalysis; hydrodechlorination; persistent organic pollutants; bimetallic nanocatalyst; environmental remediation;

    机译:电殖分析;水多向性;持久性有机污染物;双金属纳米催化剂;环境修复;

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