posted on 2024-11-15, 00:53authored byLodey Tshering, Sally O Hunter, Alexandra Nikolich, Erica Minato, Christopher M Fitchett, Deanna D'Alessandro, Christopher RichardsonChristopher Richardson
A rarely observed example of post-synthetically increasing pore space, while retaining the chemical functionality of the original metal-organic framework is reported. Conventional solvothermal heating in air was used to effect an efficient post-synthetic rearrangement of a bisallyloxy-tagged zinc metal-organic framework. This leads to the pore-space expanded MOF displaying a higher surface area yet lower affinity for CO2 sorption compared to the original MOF.
History
Citation
Tshering, L., Hunter, S. O., Nikolich, A., Minato, E., Fitchett, C. M., D'Alessandro, D. & Richardson, C. (2014). Post-synthetic pore-space expansion in a di-tagged metal-organic framework. CrystEngComm, 16 (39), 9158-9162.