Nie, Mingjie, Ge, Yan, Liu, Ziyi, Miao, Zhicheng, Zou, Jiayi, Ding, Jiangyi, Yang, Zhihong, Su, Huazhong, Yan, Gang, Wang, Yunhui, and Bi, Lan
In this paper, the hydrogen storage performance of Sc (Ti, Li)-modified Ψ -graphene (Ψ -g) is investigated by density functional theory (DFT). Sc and Ti can be stably adsorbed on Ψ -g with the binding energies of 4.78 eV and 4.83 eV, respectively. Li atoms can also be stably absorbed on B-doped Ψ -g with the binding energy of 2.51 eV. In addition, Sc and Ti atoms attached on Ψ -g can adsorb up to ten and eight hydrogen molecules, and the hydrogen gravimetric storage capacity reaches 7.93 wt.% and 6.20 wt.%, respectively. Li atoms attached on B-doped Ψ -g can adsorb up to eight hydrogen molecules with the hydrogen gravimetric storage capacity 9.32 wt.%, all meeting DOE standards. On the whole, Bader charge analysis shows that the charge is transferred from C atoms to H atoms, which is more conducive to hydrogen adsorption. All the researches prove that the Sc, Ti-decorated Ψ -g and Li-decorated B-doped Ψ -g are potential hydrogen storage materials. [ABSTRACT FROM AUTHOR]