Tailoring magnesium based materials for hydrogen storage through synthesis: Current state of the art

Thermodynamics and kinetics of hydriding and dehydriding reactions in Mg-based hydrogen storage materials

Crystal nucleation in amorphous (Au/100-y/Cu/y/)77Si9Ge14 alloys

An overview of reactive hydride composite (RHC) for solid-state hydrogen storage materials

Hydrogen is one of the cleanest energies with potential to have zero carbon emission. Hydrogen storage is a challenging phase for the hydrogen energy application. The safety, cost, and transportati...

A Review of High Density Solid Hydrogen Storage Materials by Pyrolysis for Promising Mobile Applications

Effect of Al on the hydrogen storage properties of Mg(BH4)2

Effect of microwave irradiation on the hydrogen desorption properties of MgH2/LiBH4 composite

Improved hydrogen storage properties of LiBH4 doped Li–N–H system

Improved hydrogen desorption properties of Li-N-H system by the combination of the catalytic effect of LiBH4 and microwave irradiation

The invention relates to a method for achieving rapid hydrogen desorption of MgH2 under microwave, namely, media which can absorb the microwave are added to the MgH2, and therefore the temperature of the MgH2 is increased rapidly under the microwave to achieve hydrogen desorption. The method for achieving rapid hydrogen desorption of the MgH2 under the microwave is characterized in that LiBH4 is used as microwave absorbent, and the content of the LiBH4, by weight percentage, is 5-35%; MgH2 powder and LiBH4 powder are ball-milled and mixed in a ball-milling method under the protection of inert gas, and placed in a microwave oven, the temperature of the MgH2 powder and the LiBH4 powder can be rapidly increased under a certain amount of power to achieve hydrogen desorption. The method for achieving rapid hydrogen desorption of the MgH2 under the microwave has the advantages that characteristics of the LiBH4 can be fully utilized, the LiBH4 plays a role of grinding aid during ball milling, the LiBH4 also serves as the microwave absorbent during microwave heating, and therefore rapid hydrogen desorption of the MgH2 under the microwave is achieved. According to the method, in subsequent microwave heating hydrogen desorption cyclic processes, a decomposition product B of the LiBH4 and MgB2 formed by the decomposition product B and Mg can also be used as microwave absorbent, and therefore the temperature of samples can be rapidly increased in subsequent microwave heating processes.

Method for achieving rapid hydrogen desorption of MgH2 under microwave

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