Journal
APPLIED CATALYSIS B-ENVIRONMENTAL
Volume 258, Issue -, Pages -Publisher
ELSEVIER
DOI: 10.1016/j.apcatb.2019.117941
Keywords
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Funding
- Regional Government of Sardinia (FSC 2014-2020) [D83C17000370002]
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Cu/ZnO@SBA-15 and Cu/ZnO/ZrO2@SBA-15 nanocomposites have been synthesized by an innovative impregnation-sol-gel autocombustion combined strategy and tested as catalysts for carbon dioxide hydrogenation to methanol. The composites, differing as to the active phase loading (20 and 35 wt.%) and Cu/Zn molar ratio (1.0-2.5 mol mol(-1)), have been characterized in terms of chemical, morphological, structural and textural features by a multi-technique approach. Characterization techniques revealed that the active phase is highly dispersed into/over the well-ordered mesoporous channels especially at low loading and low Cu/Zn molar ratio. In all the composites, the mesostructure of the support is retained together with a high surface area, large pore volume and uniform pore size. Catalytic results showed that the supported catalyst with the lowest Cu/Zn molar ratio (1.0 mol mol(-1)) exhibits the best catalytic performance with a space-time-yield of methanol of 376 mg(CH3OH) h(-1) g(cat)(-1), much more efficient than the unsupported catalyst (10 mg(CH3OH) h(-1) g(cat)(-)1). The confinement of the active phase in the SBA-15 structure enhances its ability to interact with H-2 and CO2, which results in improved performance. Moreover, the results show the influence of the active phase loading and the Cu/Zn molar ratio that lead to differences in the morphology and dispersion of the active phase, which in turn cause the composite to catalyse the reaction differently.
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