Hydrogen storage capabilities enhancement of MgH2 nanocrystals

Liu C, Yuan Z, Li X, Man X, Zhai T, Han Z, Li T, Zhang Y · 2024

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Magnesium-graphene interphase boundaries created by high-pressure torsion enhance hydrogen storage kinetics:Mechanisms and significance of activation energy and frequency factor

cond-mat.mtrl-sci · 2026-05-13 · unverdicted · novelty 5.0

Magnesium-graphene nanocomposites made by high-pressure torsion show faster hydrogen storage kinetics because interfaces increase the frequency factor for diffusion and nucleation, while activation energy stays fixed at 145 kJ/mol.

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Magnesium-graphene interphase boundaries created by high-pressure torsion enhance hydrogen storage kinetics:Mechanisms and significance of activation energy and frequency factor cond-mat.mtrl-sci · 2026-05-13 · unverdicted · none · ref 10
Magnesium-graphene nanocomposites made by high-pressure torsion show faster hydrogen storage kinetics because interfaces increase the frequency factor for diffusion and nucleation, while activation energy stays fixed at 145 kJ/mol.

Hydrogen storage capabilities enhancement of MgH2 nanocrystals

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