Enhanced sorption performance of MgH2 doped with reduced metal-organic framework of Ni-Co-MOF-74
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Yao, X
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Abstract
Improvement has been made in hydrogen storage performance particularly in MgH2 system prepared via high energy ball milling technique where bi-metal in the metal organic framework of Ni-Co-MOF-74 was introduced as catalyst. Better catalytic effect was recorded when pre-reduced Ni-Co-MOF-74 is used as catalyst for both hydrogen absorption and desorption. An apparent amount of reduced metal species in the MgH2 system containing bi-metal in metal organic framework promotes more active sites which eventually improved the sorption properties and shifted the thermodynamic stability of the composite. At 280°C, hydrogen desorption was 4.7 wt% in a period of 30 minutes whereas at 200°C a remarkable hydrogen amount of 6.3 wt% was stored in 2 minutes. It is believed that the distinctive coordinate of the metal in the pre-reduced metal organic framework improved the dispersion of the catalyst thus enriched the sorption properties.
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International Journal of Recent Technology and Engineering
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8
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1
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Energy generation, conversion and storage (excl. chemical and electrical)
Inorganic chemistry
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Kadri, A; Yao, X, Enhanced sorption performance of MgH2 doped with reduced metal-organic framework of Ni-Co-MOF-74, International Journal of Recent Technology and Engineering, 2019, 8 (1), pp. 3149-3155