2-Propanol Dehydration on the Nodes of the Metal–Organic Framework UiO-66: Distinguishing Catalytic Sites for Formation of Propene and Di-isopropyl Ether

Abstract: 2-Propanol dehydration was used as a test reaction to probe the catalytic properties of metal–organic framework (MOF) UiO-66. Experiments were performed with a flow reactor operated at atmospheric pressure and 510 K, showing (a) how the catalytic activity increased and then decreased, depending on the nature of ligands on the Zr6O8 MOF nodes (such as formate, acetate, hydroxyl, or alkoxy groups); and (b) how the selectivity changed with changing node ligands, which were characterized by IR spectroscopy, 1H NM… Show more

“…94–114 Additionally, Zr-MOFs have shown promising activities in heterogeneous catalysis/photocatalysis, enabling efficient chemical reactions with excellent catalyst stability and reusability. 74,112,115–138 With the exceptional chemical stability in water, Zr-MOFs can also be utilized in both the adsorption of ions/dyes/contaminants and catalysis in aqueous media. 134,139–150 Another exciting application is in the field of drug delivery, 151–154 where Zr-MOFs can serve as carriers for therapeutic agents and provide controlled and targeted release.…”

Defect-enabling zirconium-based metal–organic frameworks for energy and environmental remediation applications

“…94–114 Additionally, Zr-MOFs have shown promising activities in heterogeneous catalysis/photocatalysis, enabling efficient chemical reactions with excellent catalyst stability and reusability. 74,112,115–138 With the exceptional chemical stability in water, Zr-MOFs can also be utilized in both the adsorption of ions/dyes/contaminants and catalysis in aqueous media. 134,139–150 Another exciting application is in the field of drug delivery, 151–154 where Zr-MOFs can serve as carriers for therapeutic agents and provide controlled and targeted release.…”

Defect-enabling zirconium-based metal–organic frameworks for energy and environmental remediation applications

Recent progress on the synthesis of defective UiO-66 for thermal catalysis

Optimizing propylene production via acetone hydrodeoxygenation: Insights from catalytic studies with Cu/γ-Al2O3 and Hβ zeolite