Synergistic integration of nickel, porous silicon, and thermally reduced graphene oxide for solid‐state hydrogen energy storage

Synergistic integration of nickel, porous silicon, and thermally reduced graphene oxide for solid‐state hydrogen energy storage

Solid‐state hydrogen storage using metal hydrides offers the potential for high energy storage capacities. However, the requirement for high‐temperature operations (above 400°C) and challenges with heat exchange are significant drawbacks. From this perspective, adsorption on porous materials present...

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Veröffentlicht in:Energy storage (Hoboken, N.J. : 2019) N.J. : 2019), 2024-08, Vol.6 (5), p.n/a
Hauptverfasser: Muduli, Rama Chandra, Nishad, Neeraj Kumar, Dashbabu, Dinesh, Emadabathuni, Anil Kumar, Kale, Paresh
Format: Artikel
Sprache:eng
Schlagworte:
Adsorption
adsorption rate
Carbon
catalytic effect
Composition
Energy storage
Graphene
graphene nanostructure
Heat exchange
Hydrogen
Hydrogen storage
isosteric heat energy
Kubas interaction
Metal hydrides
Nanostructure
Nickel
Porous materials
Porous silicon
Raman spectroscopy
Storage capacity
Surface area
Surface properties
thermodynamic stability
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