Remarkable Synergistic Catalysis of Ni-Doped Ultrafine TiO2 on Hydrogen Sorption Kinetics of MgH2

Jiguang Zhang; Rui Shi; Yunfeng Zhu; Yana Liu; Yao Zhang; Shanshan Li; Liquan Li

doi:10.1021/acsami.8b06865

Remarkable Synergistic Catalysis of Ni-Doped Ultrafine TiO₂ on Hydrogen Sorption Kinetics of MgH₂

Jiguang Zhang, Rui Shi, Yunfeng Zhu, Yana Liu, Yao Zhang, Shanshan Li, Liquan Li

College of Materials Science and Engineering

Research output: Contribution to journal › Article › peer-review

80 Scopus citations

Abstract

Catalysts play an extraordinarily important role in accelerating the hydrogen sorption rates in metal-hydrogen systems. Herein, we report a surprisingly synergetic enhancement of metal-metal oxide cocatalyst on the hydrogen sorption properties of MgH₂: only 5 wt % doping of Ni into ultrafine TiO₂ enables a significant increase in hydrogen desorption kinetics; it absorbs 4.50 wt % hydrogen even at a low temperature of 50 °C. The striking improvement is partially ascribed to the formation of a particular Ni@TiO₂ core-shell structure, thereby forming versatile interfaces. This study provides insights into the way of designing high-efficiency catalysts in hydrogen storage and other energy-related fields.

Original language	English
Pages (from-to)	24975-24980
Number of pages	6
Journal	ACS Applied Materials and Interfaces
Volume	10
Issue number	30
DOIs	https://doi.org/10.1021/acsami.8b06865
State	Published - 1 Aug 2018

Keywords

Mg hydride
catalyst
core-shell structure
hydrogen sorption kinetics
synergetic effect

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10.1021/acsami.8b06865

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abstract = "Catalysts play an extraordinarily important role in accelerating the hydrogen sorption rates in metal-hydrogen systems. Herein, we report a surprisingly synergetic enhancement of metal-metal oxide cocatalyst on the hydrogen sorption properties of MgH2: only 5 wt % doping of Ni into ultrafine TiO2 enables a significant increase in hydrogen desorption kinetics; it absorbs 4.50 wt % hydrogen even at a low temperature of 50 °C. The striking improvement is partially ascribed to the formation of a particular Ni@TiO2 core-shell structure, thereby forming versatile interfaces. This study provides insights into the way of designing high-efficiency catalysts in hydrogen storage and other energy-related fields.",

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AU - Zhang, Jiguang

AU - Shi, Rui

AU - Zhu, Yunfeng

AU - Liu, Yana

AU - Zhang, Yao

AU - Li, Shanshan

AU - Li, Liquan

PY - 2018/8/1

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N2 - Catalysts play an extraordinarily important role in accelerating the hydrogen sorption rates in metal-hydrogen systems. Herein, we report a surprisingly synergetic enhancement of metal-metal oxide cocatalyst on the hydrogen sorption properties of MgH2: only 5 wt % doping of Ni into ultrafine TiO2 enables a significant increase in hydrogen desorption kinetics; it absorbs 4.50 wt % hydrogen even at a low temperature of 50 °C. The striking improvement is partially ascribed to the formation of a particular Ni@TiO2 core-shell structure, thereby forming versatile interfaces. This study provides insights into the way of designing high-efficiency catalysts in hydrogen storage and other energy-related fields.

AB - Catalysts play an extraordinarily important role in accelerating the hydrogen sorption rates in metal-hydrogen systems. Herein, we report a surprisingly synergetic enhancement of metal-metal oxide cocatalyst on the hydrogen sorption properties of MgH2: only 5 wt % doping of Ni into ultrafine TiO2 enables a significant increase in hydrogen desorption kinetics; it absorbs 4.50 wt % hydrogen even at a low temperature of 50 °C. The striking improvement is partially ascribed to the formation of a particular Ni@TiO2 core-shell structure, thereby forming versatile interfaces. This study provides insights into the way of designing high-efficiency catalysts in hydrogen storage and other energy-related fields.

KW - Mg hydride

KW - catalyst

KW - core-shell structure

KW - hydrogen sorption kinetics

KW - synergetic effect

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Remarkable Synergistic Catalysis of Ni-Doped Ultrafine TiO₂ on Hydrogen Sorption Kinetics of MgH₂

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