Publication | Closed Access
Understanding and unlocking the role of V in boosting the reversible hydrogen storage performance of MgH<sub>2</sub>
56
Citations
46
References
2023
Year
Hydrogen Energy TechnologyEngineeringEnergy ConversionMgh 2ChemistryHydrogen GenerationEnergy Storage MaterialsChemical EngineeringPristine Mgh 2H 2Chemical ThermodynamicsHydrogen TransportChemisorptionEnergy StoragePhysical ChemistryHydrogen UtilizationHydrogen Production TechnologyHydrogenQuantum ChemistryNatural SciencesHydrogen BondHydrogen-bonded LiquidChemical Kinetics
The strong bonding interactions between V and H lead to the decrease of the energy required for H 2 desorption from MgH 2 to 49.5 kJ mol −1 , 10.9 kJ mol −1 lower than that of pristine MgH 2 .
| Year | Citations | |
|---|---|---|
Page 1
Page 1