Catenated metal-organic frameworks: Promising hydrogen purification materials and high hydrogen storage medium with further lithium doping

Catenated metal-organic frameworks: Promising hydrogen purification materials and high hydrogen storage medium with further lithium doping

Based on the first-principles derived force fields and grand canonical Monte Carlo simulations, we find that the catenated metal-organic frameworks outperform the noncatenated structures, in terms of H2 separation from other gases (CH4, CO and CO2) and H2 adsorption by Li doping. A system utilizing...

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Bibliographic Details
Published in:International journal of hydrogen energy Vol. 38; no. 23; pp. 9811 - 9818
Main Authors: Meng, Zhaoshun, Lu, Ruifeng, Rao, Dewei, Kan, Erjun, Xiao, Chuanyun, Deng, Kaiming
Format: Journal Article
Language:English
Published: Kidlington Elsevier Ltd 06-08-2013
Elsevier
Subjects:
Alternative fuels. Production and utilization
Applied sciences
Carbon dioxide
Catenated metal-organic frameworks
Computer simulation
Doping
Energy
Exact sciences and technology
Fuels
Hydrogen
Hydrogen purification
Hydrogen storage
Hydrogen-based energy
Li doping
Metal-organic frameworks
Purification
Separation
Uptakes
Li doping
Hydrogen storage
Hydrogen purification
Catenated metal-organic frameworks
Purification
Hydrogen
Lithium
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Summary:Based on the first-principles derived force fields and grand canonical Monte Carlo simulations, we find that the catenated metal-organic frameworks outperform the noncatenated structures, in terms of H2 separation from other gases (CH4, CO and CO2) and H2 adsorption by Li doping. A system utilizing IRMOF-11 (or IRMOF-13) for hydrogen separation and Li-doped IRMOF-9 for hydrogen storage is therefore proposed, with hydrogen uptake of 4.91 wt% and 36.6 g/L at 243 K and 100 bar for Li-doped IRMOF-9, which is close to the 2017 DOE target. It is promising to find appropriate microporous materials for hydrogen purification and storage at ambient conditions with structure catenated. •Multi-scale study predicts the catenation is beneficial to hydrogen purification.•The catenated MOFs outperform the noncatenated ones for reversible H2 storage.•We propose IRMOF-11 or -13 for efficient H2 separation from CO2, CO, and CH4.•Li-doped IRMOF-9 achieves H2 storage of 4.91 wt% and 36.6 g/L at ambient condition.•It is worthwhile improving the volumetric hydrogen for mobile applications.
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content type line 23
ISSN:0360-3199
1879-3487
DOI:10.1016/j.ijhydene.2013.05.140