Efficient synthesis for large-scale production and characterization for hydrogen storage of ligand exchanged MOF-74/174/184-M (M = Mg2+, Ni2+)

“…By comparing the features of final products obtained using MARM and UARM methods, it seems that the Th‐MOF sample synthesized using MARM method had more distinct features, which could highly affect the adsorption applications of the samples. The BET technique revealed that the surface area equaled approximately 2240 m 2 /g for the Th‐MOF samples prepared using the MARM, a value which was not only higher than that of the previous sample, but also considerable compared to that of other MOF nanostructures synthesized by different routes such as ultrasonic, hydrothermal, microwave and slow diffusion methods …”

A novel microwave assisted reverse micelle fabrication route for Th (IV)‐MOFs as highly efficient adsorbent nanostructures with controllable structural properties to CO and CH₄ adsorption: Design, and a systematic study

“…By comparing the features of final products obtained using MARM and UARM methods, it seems that the Th‐MOF sample synthesized using MARM method had more distinct features, which could highly affect the adsorption applications of the samples. The BET technique revealed that the surface area equaled approximately 2240 m 2 /g for the Th‐MOF samples prepared using the MARM, a value which was not only higher than that of the previous sample, but also considerable compared to that of other MOF nanostructures synthesized by different routes such as ultrasonic, hydrothermal, microwave and slow diffusion methods …”

A novel microwave assisted reverse micelle fabrication route for Th (IV)‐MOFs as highly efficient adsorbent nanostructures with controllable structural properties to CO and CH₄ adsorption: Design, and a systematic study

“…This method has commonly been used for MOF solvent exchange (Mg-MOF-74, Mg-MOF-174, Mg-MOF-184, MIL-100, etc.) [73] , [76] on the laboratory scale, but it is expected to also be capable of processing a large amount of MOFs with an industrial extractor. Such industrial equipment has capacities from 100 to 1000 L depending on the type and size.…”

Recent advances in process engineering and upcoming applications of metal–organic frameworks

“…As previously mentioned, in 2000 the German chemical company BASF started to explore the commercial potential of MOFs. BASF is focused on commercializing MOF solutions [160,252] for the transportation industry [253] and is partnering with several technology, development and original equipment manufacturers to pilot the use of MOF materials for enhanced natural gas storage in vehicles in Europe, Asia and North America. Vehicles equipped with natural gas fuel systems, containing MOF materials, were introduced by BASF in 2013 [254].…”

Metal–organic frameworks in Germany: From synthesis to function