Issue 23, 2021, Issue in Progress
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RSC Advances

A study on hydrogen storage performance of Ti decorated vacancies graphene structure on the first principle

Hong Cui,ab   Ying Zhang, ORCID logo *ab   Weizhi Tian,ab   Yazhou Wang,ab   Tong Liu,ab   Yunjian Chen,ab   Pengyue Shanab  and  Hongkuan Yuanc  

* Corresponding authors

a School of Mechanical Engineering, Shaanxi University of Technology, Hanzhong, Shaanxi, China
E-mail: zhangying@stu.snut.edu.cn

b Shaanxi Key Laboratory of Industrial Automation, Shaanxi University of Technology, Hanzhong, Shaanxi, China

c School of Physical Science and Technology, Southwest University, Chongqing, P. R. China

Abstract

The structural properties, formation energy, adsorption energy, and electronic properties of vacancy graphene are studied by first-principles analysis. We found that the formation energy and adsorption energy of double vacancy graphene (DVG-4) are the largest. A single defect in DVG-4 can adsorb at least nine hydrogen molecules, and compared with Ti modified single vacancy graphene (SVG–Ti), the adsorption capacity is increased by 80%. When DVG-4 adsorbs the second, third, and fourth hydrogen molecules, the adsorption energy is greater than 0.7 eV, which is not conducive to the release. Density of state (DOS) and electron density difference (EDIFF) results reveal that charge transfer occurs among hydrogen molecules, Ti atoms, and DVG-4, decreasing the hydrogen adsorption capacity of DVG-4 by 33%. DVG - 4 has the potential to become an excellent hydrogen storage material.

Graphical abstract: A study on hydrogen storage performance of Ti decorated vacancies graphene structure on the first principle

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Article information

DOI
https://doi.org/10.1039/D1RA00214G
Article type
Paper
Submitted
11 Jan 2021
Accepted
06 Apr 2021
First published
14 Apr 2021
This article is Open Access
Creative Commons BY-NC license

RSC Adv., 2021,11, 13912-13918

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A study on hydrogen storage performance of Ti decorated vacancies graphene structure on the first principle

H. Cui, Y. Zhang, W. Tian, Y. Wang, T. Liu, Y. Chen, P. Shan and H. Yuan, RSC Adv., 2021, 11, 13912 DOI: 10.1039/D1RA00214G

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