| Autor: |
Ko, Nakeun, Choi, Pan Gyu, Hong, Jisu, Yeo, Miso, Sung, Siyoung, Cordova, Kyle E., Park, Hye Jeong, Yang, Jin Kuk, Kim, Jaheon |
| Zdroj: |
Journal of Materials Chemistry A; 2015, Vol. 3 Issue 5, p2057-2064, 8p |
| Abstrakt: |
MIL-101 and MIL-101–NH2 were partially modified to incorporate various functional groups that are capable of forming hydrogen bonds with water. Specifically, MIL-101–NH2 was partially functionalized with –NHCONHCH2CH3 (–UR2), –NHCOCHCHCOOH (–Mal), or –NH(CH2)3SO3H (–3SO3H) and MIL-101 was partially functionalized with –COOH in order to investigate the effect of these groups on the water sorption properties when compared to the pristine versions. The MIL-101 derivatives were synthesized by either post-synthetic modification of MIL-101–NH2 or through direct synthesis using a mixed linker strategy. The ratios of the incorporated functional groups were determined by 1H-NMR analyses and the porosity changes were revealed by N2 gas adsorption measurements at 77 K. Water sorption isotherms at 298 K conclude that the incorporation of –3SO3H enhances the water vapour uptake capacity at a low relative pressure (P/P0 = 0.30), whereas –UR2 and –Mal retard water adsorption in MIL-101–NH2. The partial incorporation of –COOH in MIL-101 exhibits a steeper water uptake at lower pressure (P/P0 = 0.40) than MIL-101–NH2. Interestingly, a greater –COOH content within the MIL-101 framework reduces the water uptake capacity. These results indicate that even partial functionalization of MIL-101 induces noticeably large changes in the water adsorption properties. [ABSTRACT FROM AUTHOR] |
| Databáze: |
Complementary Index |
| Externí odkaz: |
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