In-situ synthesis of Mg2Ni-Ce6O11 catalyst for improvement of hydrogen storage in magnesium

[Display omitted] •Mg2Ni–Ce6O11 binary nanocatalyst with oxygen vacancies can be in-situ synthesized.•The peak temperature for hydrogen desorption is reduced by 115.8 °C.•The apparent activation energy for hydrogen desorption is reduced to 72.7 kJ/mol.•Synergistic catalysis of Mg2Ni–Ce6O11 improves...

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Bibliographic Details
Published inChemical engineering journal (Lausanne, Switzerland : 1996) Vol. 385; p. 123448
Main Authors Liu, Pei, Lian, Jiajia, Chen, Haipeng, Liu, Xiaojing, Chen, Yuanli, Zhang, Tonghuan, Yu, Hao, Lu, Guojian, Zhou, Shixue
Format Journal Article
LanguageEnglish
Published Elsevier B.V 01.04.2020
Subjects
Hydrogen storage
In-situ synthesis
Magnesium
Synergistic catalysis
Vacancy defect
Synergistic catalysis
Hydrogen storage
Magnesium
In-situ synthesis
Vacancy defect
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