The catalytic effect of Ni(CO)4 on the microstructure, dynamics and thermodynamics on Mg-based hydrogen storage materials containing C/Pr2O3 catalytic material
Key Points
Improved thermodynamics and microstructure are observed with the application of Ni(CO)4, enhancing storage efficiency.
Dynamic evaluations indicate significant changes in material properties with the catalytic effect, optimizing performance for hydrogen storage.
Analysis of Mg-based hydrogen storage materials utilized a combination of C/Pr2O3 as catalytic materials, achieving noteworthy results in material enhancement.
Findings imply that Ni(CO)4 catalysis may lead to more viable and efficient systems for hydrogen energy storage applications, emphasizing its potential.
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The catalytic effect of Ni(CO)4 on the microstructure, dynamics and thermodynamics on Mg-based hydrogen storage materials containing C/Pr2O3 catalytic material | Synapse