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New Liquid Chemical Hydrogen Storage Technology

Author

Listed:
  • Xinchun Yang

    (Institute of Technology for Carbon Neutrality/Faculty of Materials Science and Energy Engineering, Shenzhen Institute of Advanced Technology (SIAT), Chinese Academy of Sciences (CAS), Shenzhen 518055, China
    Shenzhen Key Laboratory of Energy Materials for Carbon Neutrality, Shenzhen 518055, China)

  • Dmitri A. Bulushev

    (Boreskov Institute of Catalysis, SB RAS, Novosibirsk 630090, Russia)

  • Jun Yang

    (Key Laboratory of Science and Technology on Wear and Protection of Materials, Lanzhou Institute of Chemical Physics (LICP), Chinese Academy of Sciences (CAS), Lanzhou 730000, China)

  • Quan Zhang

    (Department of Chemical and Biomolecular Engineering, National University of Singapore, Singapore 117585, Singapore)

Abstract

The liquid chemical hydrogen storage technology has great potentials for high-density hydrogen storage and transportation at ambient temperature and pressure. However, its commercial applications highly rely on the high-performance heterogeneous dehydrogenation catalysts, owing to the dehydrogenation difficulty of chemical hydrogen storage materials. In recent years, the chemists and materials scientists found that the supported metal nanoparticles (MNPs) can exhibit high catalytic activity, selectivity, and stability for the dehydrogenation of chemical hydrogen storage materials, which will clear the way for the commercial application of liquid chemical hydrogen storage technology. This review has summarized the recent important research progress in the MNP-catalyzed liquid chemical hydrogen storage technology, including formic acid dehydrogenation, hydrazine hydrate dehydrogenation and ammonia borane dehydrogenation, discussed the urgent challenges in the key field, and pointed out the future research trends.

Suggested Citation

  • Xinchun Yang & Dmitri A. Bulushev & Jun Yang & Quan Zhang, 2022. "New Liquid Chemical Hydrogen Storage Technology," Energies, MDPI, vol. 15(17), pages 1-18, August.
    • Handle: RePEc:gam:jeners:v:15:y:2022:i:17:p:6360-:d:902992
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    References listed on IDEAS

    as
    1. Dmitri A. Bulushev, 2021. "Progress in Catalytic Hydrogen Production from Formic Acid over Supported Metal Complexes," Energies, MDPI, vol. 14(5), pages 1-14, March.
    2. Guo, Feng & Zou, Hongtao & Yao, Qilu & Huang, Bin & Lu, Zhang-Hui, 2020. "Monodispersed bimetallic nanoparticles anchored on TiO2-decorated titanium carbide MXene for efficient hydrogen production from hydrazine in aqueous solution," Renewable Energy, Elsevier, vol. 155(C), pages 1293-1301.
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    Cited by:

    1. Davide Clematis & Daria Bellotti & Massimo Rivarolo & Loredana Magistri & Antonio Barbucci, 2023. "Hydrogen Carriers: Scientific Limits and Challenges for the Supply Chain, and Key Factors for Techno-Economic Analysis," Energies, MDPI, vol. 16(16), pages 1-31, August.
    2. Luis Camargo & Daniel Comas & Yulineth Cardenas Escorcia & Anibal Alviz-Meza & Gaylord Carrillo Caballero & Ivan Portnoy, 2022. "Bibliometric Analysis of Global Trends around Hydrogen Production Based on the Scopus Database in the Period 2011–2021," Energies, MDPI, vol. 16(1), pages 1-25, December.

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