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Li-Decorated β12-Borophene as Potential Candidates for Hydrogen Storage: A First-Principle Study

机译：锂修饰的β12-硼茂铁作为储氢的潜在候选者：一项首要原理研究

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摘要

The hydrogen storage properties of pristine β12-borophene and Li-decorated β12-borophene are systemically investigated by means of first-principles calculations based on density functional theory. The adsorption sites, adsorption energies, electronic structures, and hydrogen storage performance of pristine β12-borophene/H2 and Li-β12-borophene/H2 systems are discussed in detail. The results show that H2 is dissociated into Two H atoms that are then chemisorbed on β12-borophene via strong covalent bonds. Then, we use Li atom to improve the hydrogen storage performance and modify the hydrogen storage capacity of β12-borophene. Our numerical calculation shows that Li-β12-borophene system can adsorb up to 7 H2 molecules; while 2Li-β12-borophene system can adsorb up to 14 H2 molecules and the hydrogen storage capacity up to 10.85 wt %.

机译：通过基于密度泛函理论的第一性原理系统地研究了原始的β12-硼烷和锂修饰的β12-硼苯的储氢性能。详细讨论了原始β12-硼烷/ H2和Li-β12-硼烷/ H2系统的吸附位，吸附能，电子结构和储氢性能。结果表明，H2分解为两个H原子，然后通过强共价键化学吸附在β12-硼烷上。然后，我们使用Li原子来改善储氢性能并改变β12-硼烷的储氢能力。数值计算结果表明，Li-β12-硼烷体系最多可吸附7个H2分子。 2Li-β12-硼烷体系最多可吸附14个H2分子，储氢量可达10.85 wt％。

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期刊名称 Materials
作者
Tingting Liu; Yuhong Chen; Haifeng Wang; Meiling Zhang; Lihua Yuan; Cairong Zhang;
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作者单位

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年(卷),期 2017(10),12
年度 2017
页码 1399
总页数 10
原文格式 PDF
正文语种
中图分类外科学;
关键词
β12-borophene Li-decorated hydrogen storage first-principles calculations;

机译：β12-硼烷;锂修饰;储氢;第一性原理计算;
入库时间 2022-08-17 11:42:50

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6. From the Cover: Li-decorated metal–organic framework 5: A route to achieving a suitable hydrogen storage medium [O] . A. Blomqvist, C. Moysés Araújo, P. Srepusharawoot, 2007

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7. Li-Decorated β12-Borophene as Potential Candidates for Hydrogen Storage: A First-Principle Study [O] . Tingting Liu, Yuhong Chen, Haifeng Wang, 2017

机译：Li装饰的β12-硼氧烷作为氢储存的潜在候选者：第一原理研究

Li-Decorated β12-Borophene as Potential Candidates for Hydrogen Storage: A First-Principle Study

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