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Inflating hollow nanocrystals through a repeated Kirkendall cavitation process

Author

Listed:
  • He Tianou

    (Xi’an Jiaotong University
    Xi’an Jiaotong University)

  • Weicong Wang

    (Xi’an Jiaotong University)

  • Xiaolong Yang

    (Xi’an Jiaotong University
    Guangxi University)

  • Zhenming Cao

    (College of Chemistry and Chemical Engineering, Xiamen University)

  • Qin Kuang

    (College of Chemistry and Chemical Engineering, Xiamen University)

  • Zhao Wang

    (Xi’an Jiaotong University
    Guangxi University)

  • Zhiwei Shan

    (Xi’an Jiaotong University)

  • Mingshang Jin

    (Xi’an Jiaotong University)

  • Yadong Yin

    (University of California)

Abstract

The Kirkendall effect has been recently used to produce hollow nanostructures by taking advantage of the different diffusion rates of species involved in the chemical transformations of nanoscale objects. Here we demonstrate a nanoscale Kirkendall cavitation process that can transform solid palladium nanocrystals into hollow palladium nanocrystals through insertion and extraction of phosphorus. The key to success in producing monometallic hollow nanocrystals is the effective extraction of phosphorus through an oxidation reaction, which promotes the outward diffusion of phosphorus from the compound nanocrystals of palladium phosphide and consequently the inward diffusion of vacancies and their coalescence into larger voids. We further demonstrate that this Kirkendall cavitation process can be repeated a number of times to gradually inflate the hollow metal nanocrystals, producing nanoshells of increased diameters and decreased thicknesses. The resulting thin palladium nanoshells exhibit enhanced catalytic activity and high durability toward formic acid oxidation.

Suggested Citation

  • He Tianou & Weicong Wang & Xiaolong Yang & Zhenming Cao & Qin Kuang & Zhao Wang & Zhiwei Shan & Mingshang Jin & Yadong Yin, 2017. "Inflating hollow nanocrystals through a repeated Kirkendall cavitation process," Nature Communications, Nature, vol. 8(1), pages 1-9, December.
    • Handle: RePEc:nat:natcom:v:8:y:2017:i:1:d:10.1038_s41467-017-01258-0
    DOI: 10.1038/s41467-017-01258-0
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    Cited by:

    1. Ziyao Gao & Chenglong Zhao & Kai Zhou & Junru Wu & Yao Tian & Xianming Deng & Lihan Zhang & Kui Lin & Feiyu Kang & Lele Peng & Marnix Wagemaker & Baohua Li, 2024. "Kirkendall effect-induced uniform stress distribution stabilizes nickel-rich layered oxide cathodes," Nature Communications, Nature, vol. 15(1), pages 1-11, December.

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