Synthesis of tungsten carbide on Al-SBA-15 mesoporous materials by carburization

Álvarez, Mayra G.; Chimentão, R.J.; Tichit, Didier; Santos, João Batista Oliveira dos; Dafinov, A.; Modesto-López, Luis B.; Rosell-Llompart, Joan; Güell, E.J.; Gispert-Guirado, Francesc; Llorca, Jordi; Medina, Françesc

doi:10.1016/j.micromeso.2015.07.018

Cited by 17 publications

(4 citation statements)

References 42 publications

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“…It was also observed that the diffractogram of the Pt-WO 3 /SBA-15 material (A) showed low-intensity peaks referring to the WO 3 species when compared to the material prepared by sequential impregnation (Pt-WO 3 /SBA-15 (B)). These low-intensity peaks can be attributed to a greater dispersion of WO 3 on the surface of SBA-15 incorporated by co-impregnation than by sequential impregnation, as discussed by ÁLVAREZ et al [46] studying the dispersion of WO 3 on the surface of the catalyst Al/SBA-15.…”

Section: X-ray Powder Diffraction (Xrd) Patternsmentioning

confidence: 89%

“…It is observed that samples prepared by co-impregnation were more sensitive to heat treatments than samples prepared by sequential impregnation. This behavior is attributed to an increase in the interaction of WO 3 particles with SBA-15 with a decrease in particle size and an increase in dispersion [46,47]. The co-impregnation method promoted an increase in the dispersion of WO 3 particles, favoring a better resistance to the thermal treatments of the materials.…”

Section: X-ray Powder Diffraction (Xrd) Patternsmentioning

confidence: 98%

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Methods for Pt-WO3/SBA-15 materials synthesis for glycerol conversion

et al. 2023

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Glycerol has applications as a raw material in different industrial processes, however, its supply exceeds demand. An alternative to increase the added value of this feedstock is its conversion into high added-value chemical products through dehydration and hydrogenation reactions, from which 1,2-PDO and 1,3-PDO can be obtained. To develop catalysts that increase the conversion and selectivity of these processes, materials of 2% Pt and 10% WO 3 supported on SBA-15 were studied. Two methods were used for incipient wetness impregnation: sequential impregnation, with impregnation steps for each species, and co-impregnation, with a single impregnation step for both species. From the analysis of XRD, XRF, N 2 isotherms, SEM, EDS, FTIR, and pyridine FTIR spectroscopy, it was possible to observe the influence of these methods on the structural and textural properties. It was verified that the co-impregnation provided a better dispersion of the WO 3 species on the surface of the SBA-15 and that the reduction process, for both methodologies employed, showed an improvement in the metallic dispersion. The better dispersion of WO 3 species also resulted in a greater formation of Brønsted acid sites for the co-impregnation method, with a predominance of Lewis sites in the structure of the catalysts obtained by both methods.

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Section: X-ray Powder Diffraction (Xrd) Patternsmentioning

confidence: 89%

Section: X-ray Powder Diffraction (Xrd) Patternsmentioning

confidence: 98%

Methods for Pt-WO3/SBA-15 materials synthesis for glycerol conversion

et al. 2023

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“…The catalytic properties for hydrogenolysis were shown to be similar to Ru, Ir and Ni for cracking reactions . Since the discovery that WC behaves similarly to precious metal catalysts, others have worked to prepare bulk tungsten carbide and supported tungsten carbide as lower cost replacements to noble metals. Ni(111) is used as a substrate to grow graphene as its lattice structure closely matches 2D graphene.…”

Section: Mechanisms Of In Situ Carburizationmentioning

confidence: 99%

In Situ Formation of Metal Carbide Catalysts

et al. 2017

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Metal carbide catalysts are essential to many widely used chemical processes. Fischer‐Tropsch synthesis, methane dehydroaromatization and biomass conversion catalysts are typically prepared in situ from a metal oxide precursor with a carbon‐containing gas. The reduction process of the metal oxide affects the final catalyst, as does the carburization gas mixture and metal promoters. By looking at materials that are carburized in situ, new insights can be gained about catalyst activation, fuel processing, and deactivation stages. The main focuses of this Review are iron carbide, molybdenum carbide and nickel carbide; analyzing catalyst synthesis methods, reduction steps, in situ carburization and improvements to the native processes. By combining years of research on these catalysts, trends and similarities are observed that can be used to improve current catalytic studies.

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“…3,5 Among the wide and different types of catalyst support, Santa Barbara Amorphous, commonly known as SBA-15, received great attention from the scientific community due to its properties, such as high surface area, high thermal stability, physical and chemical resistance. [6][7][8][9] These materials were successfully applied to several processes, including CO 2 capture, 10 adsorption of drugs from water, 11 removal of dyes from effluents, 12,13 and organic reactions, such as catalytic oxidation, 14 transesterification reactions for biodiesel production 15 and hydroxylation. 16 SBA-15 was first synthesized by Zhao et al in 1998 17 and rated as a mesoporous material according to IUPAC definition, 18 showing a pore diameter between 2-30 nm and a hexagonal twodimensional structure.…”

Section: Introductionmentioning

confidence: 99%