Catalytic effect of carbon-supported NiCoFeCuMg high-entropy alloy nanocatalysts on hydrogen storage properties of MgH2

Catalytic effect of carbon-supported NiCoFeCuMg high-entropy alloy nanocatalysts on hydrogen storage properties of MgH2

High entropy alloy (HEA) based materials have been extensively investigated as viable catalysts in hydrogen storage for their unique properties. Herein, we demonstrate a relatively mild synthesis strategy for constructing carbon-supported by NiCoFeCuMg HEA (NiCoFeCuMg@C) nanocatalysts by utilizing p...

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Bibliographic Details
Main Authors: Yafei Liu, Mengyuan Yue, Yusang Guo, Yaru Jiang, Yu Sun, Lizhuang Feng, Yijing Wang
Format: Article
Language:English
Published: KeAi Communications Co., Ltd. 2025-03-01
Series:Journal of Magnesium and Alloys
Subjects:
Hydrogen storage
Magnesium hydride
High entropy alloy
Synergistic effect
Online Access:http://www.sciencedirect.com/science/article/pii/S2213956724001579
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Summary:High entropy alloy (HEA) based materials have been extensively investigated as viable catalysts in hydrogen storage for their unique properties. Herein, we demonstrate a relatively mild synthesis strategy for constructing carbon-supported by NiCoFeCuMg HEA (NiCoFeCuMg@C) nanocatalysts by utilizing polymetallic metal-organic frameworks (MOFs) as precursors. The incorporation of prepared catalysts into MgH2 greatly improved the hydrogen storage performance: the MgH2+NiCoFeCuMg@C composite can rapidly desorb 6.01 wt% H2 at 325 °C, and the initial dehydrogenation temperature decreased to 167.2 °C, nearly 163.8 °C lower than that of the pure MgH2. Besides, the composite exhibits a fairly stable reversible capacity with 97% capacity retention after 20 cycles. Most importantly, ex-situ structural characterization reveals that the synergistic effects of the “hydrogen pump” role of Mg2Ni(Cu)/Mg2Ni(Cu)H4 and “hydrogen gateway” role of Co3Fe7, as well as the excellent dispersion function of carbon material, contribute to the outstanding hydrogen storage properties of the MgH2+NiCoFeCuMg@C composite. This study provides valuable insights into the performance improvement of carbon-supported HEA catalysts in modification of MgH2.
ISSN:2213-9567

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