Li-decorated porous hydrogen substituted graphyne: A new member of promising hydrogen storage medium

Zhang Yanan; Zhang Lei; Pan Hongzhe; Wang Haifeng; Li Qingfang

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Li-decorated porous hydrogen substituted graphyne: A new member of promising hydrogen storage medium

机译：李装饰多孔氢取代石墨尼：一个有前途储氢介质的新成员

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摘要

Two dimensional porous hydrogen substituted graphyne (HsGY), a new member of carbon allotropes, has been synthesized recently (Yang et al., 2019). Here, the hydrogen storage behaviors of Li-decorated HsGY are investigated by using the first-principles calculations. It is found that the Li atom prefers to adsorb over the center of a hexagon ring with the binding energy of - 1.91 eV. The interaction between Li and HsGY is attributed to the hybridization and polarization mechanisms. Each Li atom can attach at most four H-2 without dissociation of H-2 molecule. For double-side Li-decorated HsGY, the H-2 gravimetric density can reach up to 11.35 wt%, with the average adsorption energy of -0.25 eV/H-2. Our numerical results reveal Li-decorated HsGY could be considered as a new potential H-2 storage medium.

机译：最近已合成了二维多孔氢替代石墨因（HSGY），碳异质熵的新成员（杨等人，2019年）。这里，通过使用第一原理计算来研究Li装饰HSGy的储氢行为。发现锂原子更喜欢吸附在六边形环的中心，其结合能量为-1.91eV。 LI和HSGY之间的相互作用归因于杂交和偏振机制。每个Li原子可以在最多四个H-2上附着，而不会解离H-2分子。对于双面Li装饰的HSGY，H-2重量密度可达高达11.35重量％，平均吸附能量为-0.25eV / H-2。我们的数值结果揭示了Li装饰的HSGy可以被认为是新的潜在的H-2存储介质。

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《Applied Surface Science》 |2021年第1期|147683.1-147683.8|共8页
作者
Zhang Yanan; Zhang Lei; Pan Hongzhe; Wang Haifeng; Li Qingfang;
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作者单位

Nanjing Univ Informat Sci & Technol Sch Phys & Optoelect Engn Nanjing 210044 Peoples R China;

Nanjing Univ Informat Sci & Technol Sch Chem & Mat Sci Nanjing 210044 Peoples R China;

Linyi Univ Sch Phys & Elect Engn Linyi 276005 Shandong Peoples R China;

Shihezi Univ Coll Sci Dept Phys Shihezi 832003 Xinjiang Peoples R China;

Nanjing Univ Informat Sci & Technol Sch Phys & Optoelect Engn Nanjing 210044 Peoples R China;

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正文语种 eng
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关键词
Porous hydrogen substituted graphyne; Hydrogen storage; Li decoration; Density functional theory;

机译：多孔氢取代石墨尼;氢气储存;李装饰;密度泛函理论;

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专利

1. Li-decorated graphyne as high-capacity hydrogen storage media: First-principles plane wave calculations [J] . B. Xu, X.L. Lei, G. Liu, International journal of hydrogen energy . 2014,第30期

机译：锂修饰的石墨烯作为大容量氢存储介质：第一性原理平面波计算
2. Ultra-high hydrogen storage capacity of Li-decorated graphyne: A first-principles prediction [J] . Zhang Hongyu, Zhao Mingwen, Bu Hongxia, Journal of Applied Physics . 2012,第8期

机译：锂修饰石墨烯的超高储氢能力：第一性原理预测
3. Ultra-high hydrogen storage capacity of Li-decorated graphyne: A first-principles prediction [J] . Hongyu Zhang, Mingwen Zhao, Hongxia Bu, Journal of Applied Physics . 2012,第8期

机译：锂修饰石墨烯的超高储氢能力：第一性原理预测
4. Ti~(4+) substituted magnesium hydride as promising material for hydrogen storage and photovoltaic applications [C] . R. Varunaa, S. Kiruthika, P. Ravindran DAE Solid State Physics Symposium . 2019

机译：Ti〜（4+）氢化镁作为储氢和光伏应用的有希望的材料
5. Can silicon carbide nanotubes be effective storage medium for hydrogen storage? [D] . Mukherjee, Souptik 2008

机译：碳化硅纳米管可以是储氢的有效储存介质吗？
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

机译：从封面开始：装饰有锂的金属有机框架5：实现合适的氢存储介质的途径
7. Li-decorated metal–organic framework 5: A route to achieving a suitable hydrogen storage medium [O] . Blomqvist, A., Araújo, C. Moysés, Srepusharawoot, P., 2007

机译：锂装饰金属-有机骨架5：获得合适氢存储介质的途径

Li-decorated porous hydrogen substituted graphyne: A new member of promising hydrogen storage medium

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