Controlled synthesis of nanosized palladium icosahedra and their catalytic activity towards formic-acid oxidation

Tian Lv, Yi Wang, Sang Il Choi, Miaofang Chi, Jing Tao, Likun Pan, Cheng Zhi Huang, Yimei Zhu, Younan Xia

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    62 Scopus citations

    Abstract

    Pd icosahedra with sizes controlled in the range of 5-35 nm were synthesized in high purity through a combination of polyol reduction and seed-mediated growth. The Pd icosahedra were obtained with purity >94 % and uniform sizes controlled in the range of 5-17 nm by using ethylene glycol as both the reductant and solvent. The studies indicate that the formation of Pd nanocrystals with an icosahedral shape was very sensitive to the reaction kinetics. The success of this synthesis relies on the use of HCl to manipulate the reaction kinetics and thus control the twin structure and shape of the resultant nanocrystals. The size of the Pd icosahedra could be further increased up to 35 nm by seed-mediated growth, with 17 nm Pd icosahedra serving as seeds. The multiply twinned Pd icosahedra could grow into larger sizes, and their shape and multiply twinned structure were preserved. Thanks to the presence of twin defects, the Pd icosahedra showed a catalytic current density towards formic-acid oxidation that was 1.9 and 11.6 times higher than that of single-crystal Pd octahedra, which were also fully covered by {111} facets, and commercial Pd/C, respectively. Enhancement of catalytic activity by twin defects: Pd icosahedra with multiple twin defects and controlled sizes in the range of 5-35 nm are synthesized in high purity (>94 %) by manipulating reaction kinetics and show a higher catalytic activity towards formic-acid oxidation than single-crystal Pd octahedra and commercial Pd/C.

    Original languageEnglish
    Pages (from-to)1923-1930
    Number of pages8
    JournalChemSusChem
    Volume6
    Issue number10
    DOIs
    StatePublished - Oct 2013

    Keywords

    • electrochemistry
    • nanostructures
    • oxidation
    • palladium
    • synthesis design

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