Journal
INTERNATIONAL JOURNAL OF HYDROGEN ENERGY
Volume 42, Issue 16, Pages 11461-11468Publisher
PERGAMON-ELSEVIER SCIENCE LTD
DOI: 10.1016/j.ijhydene.2017.01.143
Keywords
Covalent organic framework; Hydrogen storage; Grand canonical Monte Carlo; Fullerene impregnation; Li doping; Aromatic rings grafting
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Funding
- Chinese Young Scholar National Science Foundation [21403171]
- Xi'an JiaoTong-Liverpool University Research Development Fund [PGRS-13-03-08]
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Post-modification approaches such as Li-doping, impregnation, and functionalization are promising methods to enhance H-2 adsorption in metal organic frameworks (MOFs) and covalent-organic frameworks (COFs). In this work, we propose a two-step method to modify COF-108 with the aim to enhance its hydrogen storage capacity at ambient temperature. First, we geometrically modified COF-108 through C-60 impregnation or aromatic ring grafting. Subsequently, we surface doped the modified COF-108 with Li atoms. COF-108 is the lightest 3D crystalline material ever reported and it is a promising H-2 storage material. Our grand canonical Monte Carlo (GCMG) simulations demonstrated that the combination of Li-doping with C-60 impregnation or aromatic ring grafting can potentially increase the volumetric H-2 adsorption capacity of COF-108 to reach a total H-2 adsorption capacity close to the U.S. DOE target. One of the Li-doped C-60-impregnated (Li6C60) COF-108 (with 8 Li6C60 moieties impregnated) showed an absolute H-2 uptake beyond the 2010 DOE target (45.6 mg/g and 28.6 g/cm(3)) at 233 K and 100 bar. Impregnation of C-60 and/or grafting of aromatic rings not only increased the density of doped Li in the modified COF-108 but also created more overlapped potential interaction with H-2, which resulted in higher number of H-2 adsorption sites per unit volume as compared to the unmodified material. (C) 2017 Hydrogen Energy Publications LLC. Published by Elsevier Ltd. All rights reserved.
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