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Unlocking mixed oxides with unprecedented stoichiometries from heterometallic metalorganic frameworks for the catalytic hydrogenation of CO 2

2021

[EN] Their complex surface chemistry and high oxygen lattice mobilities place mixed-metal oxides among the most important families of materials. Modulation of stoichiometry in mixed-metal oxides has been shown to be a very powerful tool for tuning optical and catalytic properties. However, accessing different stoichiometries is not always synthetically possible. Here, we show that the thermal decomposition of the recently reported metal-organic framework MUV-101(Fe, Ti) results in the formation of carbon-supported titanomaghemite nanoparticles with an unprecedented Fe/Ti ratio close to 2, not achievable by soft-chemistry routes. The resulting titanomaghemite phase displays outstanding catal…

titanomaghemiteMaterials scienceRWGSNanoparticle02 engineering and technology010402 general chemistry01 natural sciencesReverse water-gas shiftWater-gas shift reactionMixed oxidesCatalysisTitanomaghemitePhase (matter)[CHIM.CRIS]Chemical Sciences/CristallographyPhysical and Theoretical Chemistrymixed oxidesOrganic ChemistryThermal decomposition[CHIM.MATE]Chemical Sciences/Material chemistry[CHIM.CATA]Chemical Sciences/Catalysis021001 nanoscience & nanotechnology0104 chemical sciencesChemical engineeringChemistry (miscellaneous)reverse water-gas shiftMetal-organic framework0210 nano-technologySelectivityMOF-mediated synthesisStoichiometry
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