Understanding the Structural Collapse during Activation of Metal- Organic Frameworks with Copper Paddlewheels

SA Mohamed and Y Kim and J Lee and W Choe and J Kim, INORGANIC CHEMISTRY, 61, 9702-9709 (2022).

DOI: 10.1021/acs.inorgchem.2c01171

Many metal-organic frameworks (MOFs) suffer from stability issues as they can be easily amorphized from various external stimuli. In particular, it is common to observe structural collapse during the activation process of removing the synthesis solvent. In this study, we conduct high-throughput computational analysis that focuses on the activation status of MOFs that possess copper paddlewheel metal nodes. From the analysis, various mechanical properties (e.g., bulk, Young's, and shear moduli) were found to be good predictors for collapse. Furthermore, we have identified anomaly MOFs with good mechanical stability that were previously reported to collapse. Accordingly, the activation process was reattempted with improved techniques, and one of these MOFs was successfully activated.

Return to Publications page