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Intra-crystalline mesoporous zeolite encapsulation-derived thermally robust metal nanocatalyst in deep oxidation of light alkanes

Author

Listed:
  • Honggen Peng

    (Nanchang University)

  • Tao Dong

    (Nanchang University)

  • Shenyou Yang

    (Nanchang University)

  • Hao Chen

    (Oak Ridge National Laboratory
    University of Tennessee)

  • Zhenzhen Yang

    (Oak Ridge National Laboratory
    University of Tennessee)

  • Wenming Liu

    (Nanchang University)

  • Chi He

    (Xi’an Jiaotong University)

  • Peng Wu

    (East China Normal University)

  • Jinshu Tian

    (Zhejiang University of Technology)

  • Yue Peng

    (Tsinghua University)

  • Xuefeng Chu

    (Tsinghua University)

  • Daishe Wu

    (Nanchang University)

  • Taicheng An

    (Institute of Environmental Health and Pollution Control, Guangdong University of Technology)

  • Yong Wang

    (Washington State University)

  • Sheng Dai

    (Oak Ridge National Laboratory
    University of Tennessee)

Abstract

Zeolite-confined metal nanoparticles (NPs) have attracted much attention owing to their superior sintering resistance and broad applications for thermal and environmental catalytic reactions. However, the pore size of the conventional zeolites is usually below 2 nm, and reactants are easily blocked to access the active sites. Herein, a facile in situ mesoporogen-free strategy is developed to design and synthesize palladium (Pd) NPs enveloped in a single-crystalline zeolite (silicalite-1, S-1) with intra-mesopores (termed Pd@IM-S-1). Pd@IM-S-1 exhibited remarkable light alkanes deep oxidation performances, and it should be attributed to the confinement and guarding effect of the zeolite shell and the improvement in mass-transfer efficiency and active metal sites accessibility. The Pd−PdO interfaces as a new active site can provide active oxygen species to the first C−H cleavage of light alkanes. This work exemplifies a promising strategy to design other high-performance intra-crystalline mesoporous zeolite-confined metal/metal oxide catalysts for high-temperature industrial thermal catalysis.

Suggested Citation

  • Honggen Peng & Tao Dong & Shenyou Yang & Hao Chen & Zhenzhen Yang & Wenming Liu & Chi He & Peng Wu & Jinshu Tian & Yue Peng & Xuefeng Chu & Daishe Wu & Taicheng An & Yong Wang & Sheng Dai, 2022. "Intra-crystalline mesoporous zeolite encapsulation-derived thermally robust metal nanocatalyst in deep oxidation of light alkanes," Nature Communications, Nature, vol. 13(1), pages 1-10, December.
    • Handle: RePEc:nat:natcom:v:13:y:2022:i:1:d:10.1038_s41467-021-27828-x
    DOI: 10.1038/s41467-021-27828-x
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    Cited by:

    1. Jihang Yu & Xinwei Yang & Yanyan Jia & Zhi-Qiang Wang & Wenbo Li & Yongjun Jiang & Sheng Dai & Wangcheng Zhan, 2024. "Regulating socketed geometry of nanoparticles on perovskite oxide supports for enhanced stability in oxidation reactions," Nature Communications, Nature, vol. 15(1), pages 1-11, December.

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