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基于原子力显微镜操纵构建纳米颗粒杂合结构
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作者 汪颖 张益 《电子显微学报》 CAS CSCD 2013年第2期101-104,共4页
纳米颗粒是构造功能性纳米器件的重要元件。本文介绍了一种基于原子力显微镜操纵的、以不同材料纳米颗粒为元件组成的杂合结构。该方法制造的纳米结构不仅构建元件的化学组成与粒径具有多样性,而且结构的几何形状及颗粒间距也灵活可变... 纳米颗粒是构造功能性纳米器件的重要元件。本文介绍了一种基于原子力显微镜操纵的、以不同材料纳米颗粒为元件组成的杂合结构。该方法制造的纳米结构不仅构建元件的化学组成与粒径具有多样性,而且结构的几何形状及颗粒间距也灵活可变。该方法特别适用于构建各种模式体系,定量研究不同材料纳米颗粒杂合结构内元件间相对位置的变化对元件间相互作用的影响。这些数据将对优化纳米器件的功能提供重要信息。 展开更多
关键词 原子力显微镜 纳米操纵 杂合纳米结构 纳米颗粒
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Hierarchical AgAu alloy nanostructures for highly efficient electrocatalytic ethanol oxidation 被引量:1
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作者 Caiqin Wang Danil Bukhvalov +2 位作者 M.Cynthia Goh Yukou Du Xiaofei Yang 《Chinese Journal of Catalysis》 SCIE EI CAS CSCD 2022年第3期851-861,共11页
The ethanol oxidation reaction is a significant anodic reaction for direct alcohol fuel cells.The most commonly used catalysts for this reaction are Pt‐based materials;however,Pt‐based electrocatalysts cause carbon ... The ethanol oxidation reaction is a significant anodic reaction for direct alcohol fuel cells.The most commonly used catalysts for this reaction are Pt‐based materials;however,Pt‐based electrocatalysts cause carbon monoxide poisoning with intermediates before the complete transformation of alcohol to CO_(2).Herein,we present hierarchical AgAu bimetallic nanoarchitectures for ethanol electrooxidation,which were fabricated via a partial galvanic reduction reaction between Ag and HAuCl_(4).The ethanol electrooxidation performance of the optimal AgAu nanohybrid was increased to 1834 mA mg^(‒1),which is almost 10 times higher than that of the pristine Au catalyst(190 mA mg^(‒1))in alkaline solutions.This was achieved by introducing Ag into the Au catalyst and controlling the time of the replacement reaction.The heterostructure also presents a higher current density than that of commercial Pt/C(1574 mA mg^(‒1)).Density functional theory calculations revealed that the enhanced activity and stability may stem from unavoidable defects on the surface of the integrated AgAu nanoarchitectures.Ethanol oxidation reactions over these defects are more energetically favorable,which facilitates the oxidative removal of carbonaceous poison and boosts the combination with radicals on adjacent Au active sites. 展开更多
关键词 AgAu nanohybrids Hierarchical nanostructures Defected surface DFT calculation Ethanol electrooxidation
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