A comparative ab initio analysis of the stability, electronic, thermodynamic, mechanical, and hydrogen storage properties of SrZnH3 and SrLiH3 perovskite hydrides through DFT and AIMD Approaches

氢气储存 钙钛矿(结构) 从头算 化学稳定性 材料科学 密度泛函理论 热力学 理论(学习稳定性) 结构稳定性 从头算量子化学方法 电子结构 计算化学 物理化学 化学物理 化学 结晶学 分子 物理 计算机科学 工程类 有机化学 机器学习 结构工程
作者
Marouane Archi,Omar Bajjou,Khalid Rahmani,Benachir Elhadadi
出处
期刊:International Journal of Hydrogen Energy [Elsevier BV]
卷期号:105: 759-770 被引量:50
标识
DOI:10.1016/j.ijhydene.2025.01.312
摘要

Recently, perovskite hydrides have gained attention as potential solid-state storage materials due to their safety and higher density. In this paper, the Density Functional Theory (DFT) and Ab Initio Molecular Dynamics (AIMD) was used to investigate the stability, electronic, mechanical, thermodynamic, and hydrogen storage properties of SrLiH 3 and SrZnH 3 hydride-types. The structural characteristics demonstrate that these materials exhibit a cubic phase with SrZnH 3 has the higher volume due it is higher lattice constant of 3.9 Å, compared to LiSrH 3 (3.81 Å). The phonon dispersion curves and formation energy values revealed that both compounds are dynamically and thermodynamically stable. AIMD simulations further demonstrate the thermal stability of these compounds, revealing no structural deformation over a simulation time of 10 ps. The electronic band structure and density of states analysis show a band gap of 1.85 eV using GGA (2.57 eV using HSE06) for SrLiH 3 , while SrZnH 3 displays metallic behavior due to the absence of a band gap. In terms of hydrogen storage capacity, SrLiH 3 exhibits a superior gravimetric capacity of 3.1 wt%, compared to 1.94 wt% for SrZnH 3 . Additionally, we analyzed various thermodynamic properties, including free energy , enthalpy, zero-point energy, entropy, and specific heat capacity at different temperatures, providing a comprehensive understanding of material behavior under various conditions. The Pugh's ratio and Cauchy pressure indicate that SrZnH 3 demonstrates ductile behavior, while SrLih 3 exhibits a brittle nature. Moreover, the Born criteria and three-dimensional illustrations of elastic properties confirm that both compounds are mechanically stable and exhibit anisotropic characteristics. These results suggest that SrLiH 3 is a good candidate for applications requiring medium hydrogen storage capacity, while SrZnH 3 is better suited for scenarios demanding efficient hydrogen transportation. • SrLiH 3 shows a band gap of 1.85 eV (GGA) and 2.57 eV (HSE06), SrZnH 3 is metallic. • SrZnH 3 and SrLiH 3 are thermodynamically and dynamically stable perovskite hydrides. • Mechanical analysis shows SrZnH 3 is ductile, while SrLiH 3 exhibits brittleness. • SrLiH 3 has a hydrogen storage capacity of 3.1 wt%, SrZnH 3 supports rapid diffusion. • AIMD simulations confirm the structural and thermal stability of both compounds.
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