Methane Storage in Metal–Organic Frameworks: Current Records, Surprise Findings, and Challenges
University of Pennsylvania · National Institute of Standards and Technology · +2 more institutions
Abstract
We have examined the methane uptake properties of six of the most promising metal organic framework (MOF) materials: PCN-14, UTSA-20, HKUST-1, Ni-MOF-74 (Ni-CPO-27), NU-111, and NU-125. We discovered that HKUST-1, a material that is commercially available in gram scale, exhibits a room-temperature volumetric methane uptake that exceeds any value reported to date. The total uptake is about 230 cc(STP)/cc at 35 bar and 270 cc(STP)/cc at 65 bar, which meets the new volumetric target recently set by the Department of Energy (DOE) if the packing efficiency loss is ignored. We emphasize that MOFs with high surface areas and pore volumes perform better overall. NU-111, for example, reaches ~75% of both the…
Citation impact
- FWCI
- 35.09
- Percentile
- 100%
- References
- 60
Authors
6- YPYang PengCorresponding
University of Pennsylvania, National Institute of Standards and Technology, NIST Center for Neutron Research
- VKVaiva Krungleviciute
NIST Center for Neutron Research, University of Pennsylvania, National Institute of Standards and Technology
- IEIbrahim Eryazici
Northwestern University
- JTJoseph T. Hupp
Northwestern University
- OKOmar K. Farha
Northwestern University
Topics & keywords
- Gravimetric analysis
- Chemistry
- Volume (thermodynamics)
- Metal-organic framework
- Bar (unit)
- Methane
- Specific surface area
- Crystal (programming language)
- Affordable and clean energy