Metal–Organic Frameworks (MOFs): The Next Generation of Materials for Catalysis, Gas Storage, and Separation

“…1–5 The structures and structure-related properties of MOFs can be tuned by judicious design of both constituents at the molecular level. 6 Owing to their unlimited structural diversity and functional tunability, 7,8 MOFs have become one of the most fascinating classes of materials in numerous areas including gas storage and separation, 9–11 ion exchange, 12 chemical sensing, 13–15 catalysis, 16–18 energy harvesting, 19,20 and biomedicine. 21,22 Since multivariate MOFs were reported by the Yaghi group, and more and more multi-component MOFs with complementary or contradictory properties were created to obtain better performance, 23–25 tremendous efforts have been devoted to introducing multiple metal centers or ligands to improve the properties of the targeted MOF materials.…”

Heterometallic MIL-125(Ti–Al) frameworks for electrochemical determination of ascorbic acid, dopamine and uric acid

“…1–5 The structures and structure-related properties of MOFs can be tuned by judicious design of both constituents at the molecular level. 6 Owing to their unlimited structural diversity and functional tunability, 7,8 MOFs have become one of the most fascinating classes of materials in numerous areas including gas storage and separation, 9–11 ion exchange, 12 chemical sensing, 13–15 catalysis, 16–18 energy harvesting, 19,20 and biomedicine. 21,22 Since multivariate MOFs were reported by the Yaghi group, and more and more multi-component MOFs with complementary or contradictory properties were created to obtain better performance, 23–25 tremendous efforts have been devoted to introducing multiple metal centers or ligands to improve the properties of the targeted MOF materials.…”

Heterometallic MIL-125(Ti–Al) frameworks for electrochemical determination of ascorbic acid, dopamine and uric acid

“…Nowadays, metal–organic frameworks (MOFs) are considered promising materials for separating and storing gases and fluids 1 ; mainly, CO 2 capture using MOFs, either through dynamic or pressure swing adsorption (PSA) processes. 2 Compared to other nanoporous materials, MOFs have distinct advantages like large pore volumes, high specific surface area, accessible metal sites, adjustable porosity through functionalization, and, in some cases, structural flexibility depending on the host inside the pores.…”

Influence of Pressure and Temperature on the Flexible Behavior of Iron-Based MIL-53 with the CO₂ Host: A Comprehensive Experimental and DFT Study

“…Among them, nanomaterials stand out, with different applications in various fields of work: treatment of wastewater, catalysis construction, biomedical engineering, energy, etc. [ [16] , [17] , [18] , [19] ]. The most widely accepted approach is the treatment of concrete surfaces due to its effectiveness in preventing and protecting against the entry of aggressive substances, avoiding the loss of durability of concrete structures or extending their lifespan [ 20 ].…”

Performance of graphene oxide as a water-repellent coating nanomaterial to extend the service life of concrete structures