Co@NH₂-MIL-125(Ti): cobaloxime-derived metal–organic framework-based composite for light-driven H₂ production

Abstract: Co@NH2-MIL-125(Ti): Cobaloxime-derived Metal-Organic Framework-based Composite for Light-driven H2 Production Nasalevich, M.A.; Becker, R.; Ramos-Fernandez, E.V.; Castellanos, S.; Veber, S.L.; Fedin, M.V.; Kapteijn, F.; Reek, J.N.H.; van der Vlugt, J.I.; Gascon, J. Disclaimer/Complaints regulationsIf you believe that digital publication of certain material infringes any of your rights or (privacy) interests, please let the Library know, stating your reasons. In case of a legitimate complaint, the Library will… Show more

“…Accordingly, a second strategy is to employ MOFs as a passive container for the encapsulation of a light absorbing photocatalyst. 30,31 These active species are often homogeneous catalysts based on precious metals, and by encapsulating 29 or covalently bonding them to the framework, leaching has been successfully prevented. 22 This strategy was also employed on a UiO-66 framework, using RuIJbpy) 3 as a photosensitizer.…”

“…24 Fortunately, MOFs are not solely limited to being a static scaffold, thus promoting synergistic and cooperative interactions among the MOF and the encapsulated catalyst is a more stimulating third approach, where charge transfer between MOF and guest is achieved. 29 This method was applied, for example, on a UiO-67 framework consisting of biphenyl-4,4′-dicarboxylic acid combined with Ir-based ligands. When loaded with Pt nanoparticles, 19 it showed remarkable activity for hydrogen evolution due to the efficient electron transfer from the Ircomplex to Pt.…”

“…[27][28][29] In this context, different approaches have been recently followed: from the use of MOFs as containers for encapsulating light absorbing photocatalysts 22,24,30 to exploiting ligand-to-metal charge transfer (LMCT) within the MOF or even inducing charge transfer from the MOF to encapsulated catalysts. 29,31 Regardless of the promising discoveries made in the past few years, a lot of progress is still needed. Proof of the interest in this application of MOFs is the unprecedented number of reviews (almost as many as the number of papers on the topic) that have appeared in the literature over the last two years.…”

Understanding metal–organic frameworks for photocatalytic solar fuel production

“…Accordingly, a second strategy is to employ MOFs as a passive container for the encapsulation of a light absorbing photocatalyst. 30,31 These active species are often homogeneous catalysts based on precious metals, and by encapsulating 29 or covalently bonding them to the framework, leaching has been successfully prevented. 22 This strategy was also employed on a UiO-66 framework, using RuIJbpy) 3 as a photosensitizer.…”

“…24 Fortunately, MOFs are not solely limited to being a static scaffold, thus promoting synergistic and cooperative interactions among the MOF and the encapsulated catalyst is a more stimulating third approach, where charge transfer between MOF and guest is achieved. 29 This method was applied, for example, on a UiO-67 framework consisting of biphenyl-4,4′-dicarboxylic acid combined with Ir-based ligands. When loaded with Pt nanoparticles, 19 it showed remarkable activity for hydrogen evolution due to the efficient electron transfer from the Ircomplex to Pt.…”

“…[27][28][29] In this context, different approaches have been recently followed: from the use of MOFs as containers for encapsulating light absorbing photocatalysts 22,24,30 to exploiting ligand-to-metal charge transfer (LMCT) within the MOF or even inducing charge transfer from the MOF to encapsulated catalysts. 29,31 Regardless of the promising discoveries made in the past few years, a lot of progress is still needed. Proof of the interest in this application of MOFs is the unprecedented number of reviews (almost as many as the number of papers on the topic) that have appeared in the literature over the last two years.…”

Understanding metal–organic frameworks for photocatalytic solar fuel production

“…In 2015, Gascon and coworkers employed the same framework NH 2 -MIL-125(Ti) as photosensitizing platform for a molecular Co-oxime-diimine catalyst as guest molecule inside the framework's pores [55]. The molecular catalyst was build up inside the pores by first soaking the MOF with the oxime ligand and subsequent addition of CoBr 2 leading to the formation of the catalyst.…”

“…4 Photochemical hydrogen production making use of photosensitizing framework. Pt-nanoparticles [54] or cobaloxime [55] were used as catalysts observed with TEA, EDTA or methanol. The authors attributed the need of TEOA to the weak oxidation power of the organic linker.…”

Photochemical Hydrogen Production with Metal–Organic Frameworks

Transition Metal Catalysis in Confined Spaces