Jianzhou Lv, Yongxiu Sun, Rui Wang, Xiang Zhong, Kaimin Fan, Yi Luo, Yiqiang He, Jinghong Zhang, Qingqiang Sun
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引用次数: 0
Abstract
Helium (He) in rare-earth metal hydrogen storage materials tends to aggregate and produce bubbles and release them, which has an impact on the lifetime of the materials. Therefore, it is crucial to study the aggregation behavior of He to improve the lifetime of the materials. In this paper, two forms of interstitial doping and substitution doping are selected by density-functional theory (DFT) calculations, and the effects of Al doping in ScH on the geometries, formation energies, and binding energies of He atoms, as well as the migration behaviors of the doped Al atoms on the migration of the He atoms are investigated in detail. Finally, it is demonstrated that Al doping in ScH makes it difficult for He atoms to exist near and stabilize the vacancies close to Al atoms, which is likely to inhibit the formation of clusters of He, and provides a strong basis for the realization of the improvement of helium-solidifying properties of ScH materials.
稀土金属储氢材料中的氦(He)容易聚集,产生气泡并释放出来,这对材料的寿命有影响。因此,研究 He 的聚集行为对提高材料的寿命至关重要。本文通过密度泛函理论(DFT)计算,选择了间隙掺杂和取代掺杂两种形式,详细研究了在 ScH 中掺杂 Al 对 He 原子的几何形状、形成能和结合能的影响,以及掺杂 Al 原子对 He 原子迁移的迁移行为。最后证明,在 ScH 中掺入 Al 原子会使 He 原子难以在靠近 Al 原子的空位附近存在并稳定下来,从而抑制 He 原子团的形成,为实现 ScH 材料氦固化性能的改善提供了有力的依据。
期刊介绍:
The goal of Computational Materials Science is to report on results that provide new or unique insights into, or significantly expand our understanding of, the properties of materials or phenomena associated with their design, synthesis, processing, characterization, and utilization. To be relevant to the journal, the results should be applied or applicable to specific material systems that are discussed within the submission.
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