Ambient-temperature hydrogen storage kinetics of magnesium-based composites enabled by acetone-assisted ball milling and TiF3 catalysis | Synapse
March 3, 2026
Ambient-temperature hydrogen storage kinetics of magnesium-based composites enabled by acetone-assisted ball milling and TiF3 catalysis
Puntos clave
Improved hydrogen storage kinetics are observed, reaching significant enhancements due to acetone-assisted processes.
The most crucial finding demonstrates hydrogen uptake improvements of 48% compared to untreated materials in ambient temperature conditions.
Assessment using acetone-assisted ball milling and TiF3 catalysis showcases the effectiveness of these methods in enhancing composite properties.
These findings highlight the potential for magnesium composites in practical energy storage applications, necessitating further exploration of scalability.