Advances in Superlattice Hydrogen Storage Alloys: Preparation Method, Phase Structure Modulation, and Hydrogen Storage Performance DOI Creative Commons
Yuqing Zhang, Yajie Zhang,

Tianmeng He

et al.

Molecules, Journal Year: 2025, Volume and Issue: 30(10), P. 2161 - 2161

Published: May 14, 2025

Superlattice hydrogen storage alloys have attracted much attention due to their high capacity, excellent cyclic stability, and moderate operating conditions. This review, focusing on journal articles published between 2020 2025, comprehensively covers the impacts of doping with different rare-earth elements substitution superlattice details influence mechanisms preparation methods, such as arc melting powder metallurgy, phase structure alloys. A thorough analysis is conducted how element alters crystal structure, lattice parameters, stability alloys, thereby affecting performance. Meanwhile, differences in effects substituting at various sites performance are explored, regular patterns influencing factors summarized. review provides a new perspective for design development high-performance expected contribute long-term sustainable clean energy.

Language: Английский

Advances in Superlattice Hydrogen Storage Alloys: Preparation Method, Phase Structure Modulation, and Hydrogen Storage Performance DOI Creative Commons
Yuqing Zhang, Yajie Zhang,

Tianmeng He

et al.

Molecules, Journal Year: 2025, Volume and Issue: 30(10), P. 2161 - 2161

Published: May 14, 2025

Superlattice hydrogen storage alloys have attracted much attention due to their high capacity, excellent cyclic stability, and moderate operating conditions. This review, focusing on journal articles published between 2020 2025, comprehensively covers the impacts of doping with different rare-earth elements substitution superlattice details influence mechanisms preparation methods, such as arc melting powder metallurgy, phase structure alloys. A thorough analysis is conducted how element alters crystal structure, lattice parameters, stability alloys, thereby affecting performance. Meanwhile, differences in effects substituting at various sites performance are explored, regular patterns influencing factors summarized. review provides a new perspective for design development high-performance expected contribute long-term sustainable clean energy.

Language: Английский

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