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Exploring the structural, hydrogen storage capacity, electronic and optical properties of H-rich AlHx(x=4, 5 and 6) hydrogen storage materials: A first-principles study

Yong Pan, Zhijing Yang, Hui Zhang

2024International Journal of Hydrogen Energy66 citationsDOIOpen Access PDF

Abstract

Although Al–H hydrides are promising hydrogen storage materials due to the high hydrogen storage capacity and low density, the structural stability , electronic and optical properties of H-rich region AlH x are entirely unknown. To explore the hydrogen storage material with high hydrogen storage capacity, here, we apply the first-principle method to study the structural stability, hydrogen storage capacity, electronic and optical properties of three AlH x (x = 4, 5 and 6) hydrides. The calculated results show that three AlH x hydrides are thermodynamic stability due to the negative formation enthalpy . In particular, it is found that the calculated hydrogen storage capacity (C wt .%) is 11.44 wt% for AlH 4 , 13.52 wt% for AlH 5 and 15.39 wt% for AlH 6 , respectively. Compared to MgH 2 (7.66 wt%), the hydrogen storage capacity of AlH 4 , AlH 5 and AlH 6 increases by about 49.3%, 76.5% and 100.9%. Naturally, the [AlH 3 ] group and [AlH 5 ] group in AlH 5 , the [AlH 6 ] group in AlH 4 and AlH 6 are beneficial to store a lot of hydrogen. In addition, the calculated band gap of AlH 4 , AlH 5 and AlH 6 is 3.08 eV, 3.11 eV and 4.27 eV, respectively. The semiconductor properties of three AlH x hydride is demonstrated by the dielectric functional. Finally, it is found that three AlH x hydrides show ultraviolet properties.

Topics & Concepts

Hydrogen storageHydrogenMaterials scienceComputer data storageInformation storageOptical storageChemistryComputer scienceOptoelectronicsInformation retrievalOrganic chemistryOperating systemHydrogen Storage and MaterialsBoron and Carbon Nanomaterials ResearchInorganic Chemistry and Materials
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