Highly dispersed platinum in metal organic framework NH2-MIL-101(Al) containing phosphotungstic acid – Characterization and catalytic performance

The synthesis, characterization (FT-IR, XPS, NMR, UV–Vis), and catalytic performance of Pt supported on phosphotungstic acid (PTA) encapsulated in a metal organic framework (MOF) are reported. The highly dispersed Keggin units of PTA in NH2-MIL-101(Al), synthesized in one step, act as anchoring sites for the Pt precursor species. After different post-treatments, the resulting catalysts have been tested in the oxidation of CO, the preferential oxidation of CO in the presence of H2, and the hydrogenation of toluene. Reduction at 473 K results in the formation of small Pt0 clusters and Pt2+ species. Reduction at 573 K induces the formation of intermetallic Pt–W5+ species, which exhibit the best CO oxidation activity and a higher selectivity toward CO2 than alumina supported Pt, resembling the combination of a noble metal on a reducible support. In toluene hydrogenation, the MOF catalysts perform worse than Pt on alumina, ascribed to the too small size of the Pt clusters in the MOF catalysts.

■■■Figure optionsDownload high-quality image (152 K)Download as PowerPoint slideHighlights
► Highly dispersed HPA in MOF has been used as an anchoring site for Pt.
► Monoatomically dispersed Pt was found.
► Hydrogen treatment at 573 K enables the formation of intermetallic species.
► Catalysts were tested in oxidation and hydrogenation reactions.
► Catalysts work better in oxidation reactions.