Towards controlled partial desolvation of guest-responsive Metal-Organic Frameworks for precise porosity control

Desolvation of guest responsive metal-organic frameworks (MOFs) under dynamic vacuum often leads to the collapse of the pores whereas supercritical CO2 (SC-CO2) drying was found to be the best alternative way to overcome the challenge of MOF desolvation. Nevertheless, some of the MOFs collapse during desolvation by SC-CO2 drying method. SC-CO2 drying always leads to complete desolvation of the MOFs except the metal-coordinated solvent molecules. However, controlled and partial desolvation of the MOFs can be a possible way to restrict the pore collapse of the frameworks. The importance of nuanced desolvation is demonstrated for two iso-structural newly designed tetra-carboxylic acid-based Cu-MOFs (DUT-202, DUT-203). These MOFs switch to a contracted pore phase upon complete desolvation of the solvent molecules either by vacuum treatment or SC-CO2 drying method. Therefore, a controlled desolvation technique has been followed to activate DUT-202, 203 while the closely trapped DMF remains coordinated which is essential to retain the microporous nature of the framework. Acetone-exchanged Cu-MOFs were treated under argon flow to replace the weakly connected solvent molecules inside the pores but not the strongly trapped guest molecules and the activated phases were found to have open pore phase with microporous nature. Interestingly the contracted pore phase can be reopened by heating in DMF for several hours.