| Literature DB >> 27273621 |
Haiqing Li1, Marta Rubio Martinez2, Zachary Perry3, Hong-Cai Zhou3, Paolo Falcaro4, Christian Doblin2, Seng Lim2, Anita J Hill2, Barry Halstead2, Matthew R Hill5,6.
Abstract
Adsorbents for CO2 capture need to demonstrate efficient release. Light-induced swing adsorption (LISA) is an attractive new method to release captured CO2 that utilizes solar energy rather than electricity. MOFs, which can be tailored for use in LISA owing to their chemical functionality, are often unstable in moist atmospheres, precluding their use. A MOF is used that can release large quantities of CO2 via LISA and is resistant to moisture across a large pH range. PCN-250 undergoes LISA, with UV flux regulating the CO2 desorption capacity. Furthermore, under UV light, the azo residues within PCN-250 have constrained, local, structural flexibility. This is dynamic, rapidly switching back to the native state. Reusability tests demonstrate a 7.3 % and 4.9 % loss in both adsorption and LISA capacity after exposure to water for five cycles. These minimal changes confirm the structural robustness of PCN-250 and its great potential for triggered release applications.Entities:
Keywords: carbon dioxide; gas release; gas storage; metal-organic frameworks; photoswitching
Year: 2016 PMID: 27273621 DOI: 10.1002/chem.201602671
Source DB: PubMed Journal: Chemistry ISSN: 0947-6539 Impact factor: 5.236