Effects of structural modifications on the hydrogen storage capacity of MOF-5

Here, we describe the preparation of four structurally modified MOF-5s and carried out a systematic study of the effects of the structural modifications on the evolution of the crystal structure, pore characteristics, and H2 capacities of MOF-5s. The structural modifications were found to significantly influence the pore characteristics, and the specific surface areas of the MOF-5s decreased with the evolution of an ultrafine porosity. These changes were correlated with an increase in the H2 storage capacity of the MOF-5 (from 1.2 to 2.0 wt% at −196 °C and 1 bar). The structural modifications also enhanced the thermal stability of the MOF-5s (the decomposition temperature increased from 438 °C to 510 °C). These results are particularly useful for the design of favorable MOF-based adsorbents with a high H2 uptake coupled with a high thermal stability.

► We prepared four different structure-modified MOF-5s. ► We investigated effects of structure modifications on hydrogen storage capacity of MOF-5s. ► Increasing of ultrafine porosity by structure modifications enhanced hydrogen storage capacity. ► Structure modifications enables much increased thermal stability of MOF-5s.