Covalent Organic Frameworks as Exceptional Hydrogen Storage Materials
University of California, Los Angeles · California Institute of Technology
Abstract
We report the H2 uptake properties of six covalent organic frameworks (COFs) from first-principles-based grand canonical Monte-Carlo simulations. The predicted H2 adsorption isotherm is in excellent agreement with the only available experimental result (3.3 vs 3.4 wt % at 50 bar and 77 K for COF-5), also reported here, validating the predictions. We predict that COF-105 and COF-108 lead to a reversible excess H2 uptake of 10.0 wt % at 77 K, making them the best known storage materials for molecular hydrogen at 77 K. We predict that the total H2 uptake for COF-108 is 18.9 wt % at 77 K. COF-102 shows the best volumetric performance, storing 40.4 g/L of H2 at 77 K. These results indicate that the COF systems are…
Citation impact
- FWCI
- 26.96
- Percentile
- 100%
- References
- 25
Authors
4- SSSang Soo HanCorresponding
University of California, Los Angeles, California Institute of Technology
- HFHiroyasu Furukawa
California Institute of Technology, University of California, Los Angeles
- OMOmar M. Yaghi
California Institute of Technology, University of California, Los Angeles
- WAWilliam A. Goddard
University of California, Los Angeles, California Institute of Technology
Topics & keywords
- Covalent organic framework
- Chemistry
- Hydrogen storage
- Covalent bond
- Hydrogen
- Bar (unit)
- Adsorption
- Monte Carlo method