Yongfeng Liu scite author profile

A novel LiNH2−MgH2 hydrogen storage system with a molar ratio of 1:1, which can desorb 6.1 wt % hydrogen or 3 equiv of H atoms during first ball milling and subsequent heating, was investigated. During ball milling, the NH2 group in LiNH2 and H atoms in MgH2 switched with each other, leading to the formation of Mg(NH2)2 and LiH, and then the newly formed Mg(NH2)2 and LiH and the remaining MgH2 reacted continuously to desorb hydrogen by absorbing heat at an elevated temperature. After heating to 390 °C, the final product was identified to be Mg3N2, Li2MgN2H2, and LiH by means of XRD and IR characterization. Thermodynamic examination shows that the desorption heat effect is around 45.9 kJ/mol of H2.

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A novel catalyst precursor K₂TiF₆with remarkable synergetic effects of K, Ti and F together on reversible hydrogen storage of NaAlH₄

Liu

Liang

Zhou

et al. 2011

Chem. Commun.

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Yongfeng Liu

Advanced hydrogen storage alloys for Ni/MH rechargeable batteries

High performance amorphous-Si@SiO /C composite anode materials for Li-ion batteries derived from ball-milling and in situ carbonization

Rare earth–Mg–Ni-based hydrogen storage alloys as negative electrode materials for Ni/MH batteries

Hydrogen Storage in a LiNH₂−MgH₂ (1:1) System

A novel catalyst precursor K₂TiF₆with remarkable synergetic effects of K, Ti and F together on reversible hydrogen storage of NaAlH₄

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Yongfeng Liu

Advanced hydrogen storage alloys for Ni/MH rechargeable batteries

High performance amorphous-Si@SiO /C composite anode materials for Li-ion batteries derived from ball-milling and in situ carbonization

Rare earth–Mg–Ni-based hydrogen storage alloys as negative electrode materials for Ni/MH batteries

Hydrogen Storage in a LiNH2−MgH2 (1:1) System

A novel catalyst precursor K2TiF6with remarkable synergetic effects of K, Ti and F together on reversible hydrogen storage of NaAlH4

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Hydrogen Storage in a LiNH₂−MgH₂ (1:1) System

A novel catalyst precursor K₂TiF₆with remarkable synergetic effects of K, Ti and F together on reversible hydrogen storage of NaAlH₄