The demand for cheap and convenient xenon storage continues to rise due to its wide spectrum of applications. It is expected that solid-state adsorbents can provide significant advantages over the current isolated stainless-steel tank-based storage technologies. In this context, we investigated metal organic frameworks for use as adsorbents for xenon. Initially, three representative MOFs were synthesized and characterized in terms of Xe storage. The results were used to validate a computational modeling approach, which was later extended to a larger set of materials. The collected results allowed us to rationalize the key parameters (pore volume, surface area, void fraction etc.), which are important for good performance and selection of the best materials for xenon storage
Revised: March 26, 2020 |
Published: March 2, 2020
Citation
Elsaidi S., D. Ongari, M.H. Mohamed, W. Xu, R.K. Motkuri, M. Haranczyk, and P.K. Thallapally. 2020.Metal Organic Frameworks for Xenon Storage Applications.ACS Materials Letters 2, no. 3:233-238.PNNL-SA-150079.doi:10.1021/acsmaterialslett.9b00468