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Journal of Sol-Gel Science and Technology

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01-01-2014 | Original Paper

Synthesis and characterization of SiO₂–CrO₃, SiO₂–MoO₃, and SiO₂–WO₃ mixed oxides produced using the non-hydrolytic sol–gel process

Authors: Arthur A. Bernardes, Claudio Radtke, Maria do Carmo M. Alves, Ione M. Baibich, Márcia Lucchese, João Henrique Z. dos Santos

Published in: Journal of Sol-Gel Science and Technology | Issue 1/2014

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Abstract

Silica-based mixed oxide xerogels, namely SiO₂–CrO₃, SiO₂–MoO₃, and SiO₂–WO₃, were prepared using the non-hydrolytic sol–gel process. The materials were synthesized using metal chloride:tetraethoxysilane (TEOS) molar ratios of 0.1:2; 0.2:2 and 0.4:2 for each metal chloride and 1:2 SiCl₄:TEOS molar ratio. All of the xerogels containing Cr, Mo or W had considerably greater surface areas than that of SiO₂. The small angle X-ray scattering experiments suggest that the surface roughness of the aggregates in SiO₂–CrO₃ is less than that of SiO₂–MoO₃ and SiO₂–WO₃. The morphological characteristics of the silica-based mixed oxide xerogels were not affected by the nature and amount of metal chloride employed in the synthesis. An irregular morphology was observed for SiO₂–CrO₃, SiO₂–MoO₃ and SiO₂–WO₃, but a lamellar structure was observed for SiO₂. X-ray photoelectron spectroscopy analysis suggests that tungsten species were preferentially distributed on the outmost part of the grain. The resulting particle diameter was shown to be lower for the mixed oxides compared to that of bare silica. Furthermore, the presence of metals (Cr, Mo and W) on silica caused a decrease in the size of the particles as the atomic radii of these metals increased. According to the Fourier transform infrared spectroscopy and Raman, Cr, Mo and W were incorporated within the silica framework.

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Wachs IE, Roberts CA (2010) Monitoring surface metal oxide catalytic active sites with Raman spectroscopy. Chem Soc Rev 39:5002–5017CrossRef

Arzoumanian H, Castellanos NJ, Martinez FO, Páez-Mozo EA, Ziarelli F (2010) Silicon-assisted direct covalent grafting on metal oxide surfaces: synthesis and characterization of carboxylate N, N′-ligands on TiO2. Eur J Inorg Chem 11:1633–1641CrossRef

Irurzun VM, Tan Y, Resasco DE (2009) Sol–gel synthesis and characterization of Co–Mo/Silica catalysts for single-walled carbon nanotube production. Chem Mater 21(11):2238–2246CrossRef

Gao G, Feng W, Wu G, Shen J, Zhang Z, Jin X, Zhang Z, Du A (2012) An investigation on the assembling of WO₃ particles on the matrix of silica solution. J Sol–Gel Sci Technol 64:427–435CrossRef

Wachs IE (2005) Recent conceptual advances in the catalysis science of mixed metal oxide catalytic materials. Catal Today 100:79–94CrossRef

De Boer M, Van Dillen AJ, Koningsberger DC, Geus JW, Vuurman MA, Wachs IE (1991) Remarkable spreading behavior of molybdena on silica catalysts. An in situ EXAFS-Raman study. Catal Lett 11:227–240CrossRef

Van Schalkwyk C, Spamer A, Moodley DJ, Dube T, Reynhardt J, Botha JM (2003) Application of a WO₃/SiO₂ catalyst in an industrial environment: part I. Appl Catal A 255:121–131CrossRef

Choi KY, Tang S (2004) Polymerization rate modeling of ethylene polymerization with supported chromium oxide catalysts. J Appl Polym Sci 91:2923–2927CrossRef

Li W, Meitzner GD, Borry RW III, Iglesia E (2000) Raman and X-ray absorption studies of Mo species in Mo/H-ZSM5 catalysts for non-oxidative CH₄ reactions. J Catal 191:373–383CrossRef

10.

Thielemann JP, Ressler T, Walter A, Tzolova-Müller G, Hess C (2011) Structure of molybdenum oxide supported on silica SBA-15 studied by Raman, UV–Vis and X-ray absorption spectroscopy. Appl Catal A 399:28–34CrossRef

11.

Vioux A (1997) Nonhydrolytic sol–gel routes to oxides. Chem Mater 9:2292–2299CrossRef

12.

Mutin PH, Vioux A (2009) Nonhydrolytic processing of oxide-based materials: simple routes to control homogeneity, morphology, and nanostructure. Chem Mater 21:582–596CrossRef

13.

Niederberger M, Garnweitner G (2006) Organic reaction pathways in the nonaqueous synthesis of metal oxide nanoparticles. Chem Eur J 12:72827302CrossRef

14.

Debecker DP, Mutin PH (2012) Non-hydrolytic sol–gel routes to heterogeneous catalysts. Chem Soc Rev 41:3624–3650CrossRef

15.

Fisch AG, Cardozo NSM, Secchi AR, Stedile FC, Radtke C, de Sá DS, da Rocha ZN, dos Santos JHZ (2009) Immobilization of zirconocene within silica-tungsten by entrapment: Tuning electronic effects of the support on the supported complex. Appl Catal A 370:114–122CrossRef

16.

Fisch AG, Petry CF, Pozebon D, Stedile FC, Cardozo NSM, Secchi AR, dos Santos JHZ (2006) Immobilization of zirconocene into silica prepared by non-hydrolytic sol–gel method. Macromol Symp 245–246:77–86CrossRef

17.

Fisch AG, Cardozo NSM, Secchi AR, Stedile FC, Livotto PR, de As DS, da Rocha ZN, dos Santos JHZ (2009) Immobilization of metallocene within silica-titania by a non-hydrolytic sol–gel method. Appl Catal A 354:88–101CrossRef

18.

Fisch AG, Cardozo NSM, Secchi AR, Stedile FC, da Silveira NP, dos Santos JHZ (2008) Investigation of silica particle structure containing metallocene immobilized by a sol–gel method. J Non Cryst Solids 354:3973–3979CrossRef

19.

Hay JN, Haval HM (1998) Preparation of inorganic oxides via a non-hydrolytic sol–gel route. J Sol–Gel Sci Technol 13:109–112CrossRef

20.

Bourget L, Corriu RJP, Leclereq D, Mutin PH, Vioux A (1998) Non-hydrolytic sol–gel routes to silica. J Non Cryst Solids 242:81–91CrossRef

21.

Ilavsky J, Jemian PR (2009) Irena: tool suite for modeling and analysis of small-angle scattering. J Appl Crystallogr 42:347–353CrossRef

22.

Beaucage G (1995) Approximations leading to a unified exponential/power-law approach to small-angle scattering. Appl Crystallogr 28:717–728CrossRef

23.

Beaucage G (1996) Small-angle scattering from polymeric mass fractals of arbitrary mass-fractal dimension. Appl Crystallogr 29:134–146CrossRef

24.

Cullity BD (1978) Elements of X-ray diffraction, 2nd edn. Addison-Wesley Publishing Company Inc., Indiana, pp 1–509

25.

Fidalgo A, Ilharco LM (2004) Chemical tailoring of porous silica xerogels: local structure by vibrational spectroscopy. Chem Eur J 10(2):392–398CrossRef

26.

Cappeletti LB, Moncada E, Poisson J, Butler I, dos Santos JHZ (2013) Determination of the network structure of sensor materials prepared by three different sol–gel routes using Fourier transform infrared spectroscopy (FT-IR). Appl Spectrosc 67(4):441CrossRef

27.

Ressler T (1998) High-pressure EXAFS and EDXRD K investigation of unit cell parameters of SnO. J Synch Rad 5:118CrossRef

28.

Newville M (2001) IFEFFIT: interactive EXAFS analysis and FEFF fitting. J Synch Rad 8:322–324CrossRef

29.

Mustre de Leon J, Rehr JJ, Zabinsky SI, Albers RC (1991) Ab initio curved-wave X-ray-absorption fine structure. Phys Rev B 44:4146–4156CrossRef

30.

Silveira F, Brambilla R, da Silveira NP, do Alves MCM, Stedile FC, Pergher SBC, dos Santos JHZ (2010) Effect of textural characteristics of supported metallocenes on ethylene polymerization. J Mater Sci 45:1760–1768CrossRef

31.

Fisch AG, Da Silveira N Jr, Cardozo NSM, Secchi AR, dos Santos JHZ, Soares JBP (2013) Direct production of ultra-high molecular weight polyethylene with oriented crystalline microstructures. J Mol Catal A: Chem 366:74–83CrossRef

32.

Wooster NZ (1930) International center for diffraction data. Kristall 74:363

33.

Almeida RM (2004) Handbook of sol–gel science and technology: processing, characterization and applications. Volume II: characterization of sol–gel materials and products. Kluwer Academic Press, New York

34.

Almeida RM, Guiton TA, Pantano CG (1990) Detection of LO Mode in ν-SiO₂ by infrared diffuse reflectance spectroscopy. J Non Cryst Solids 119(2):238–241CrossRef

35.

Fidalgo A, Ciriminna R, Ilharco LM, Pagliaro M (2005) Role of the alkyl–alkoxide precursor on the structure and catalytic properties of hybrid sol–gel catalysts. Chem Mater 17(26):6686–6694CrossRef

36.

Morais EC, Correa GG, Brambilla R, Radtke C, Baibich IM, dos Santos JHZ (2013) The interaction of encapsulated pharmaceutical drugs with a silica matrix. Colloids Surf B Biointerfaces 103:422–429CrossRef

37.

Lana SLB, Seldon AB (1998) X-ray diffraction studies of sol–gel derived ORMOSILs based on combinations of tetramethoxysilane and trimethoxysilane. J Sol–Gel Sci Technol 13(1–3):461–466CrossRef

38.

Lee EL, Wachs IE (2007) In situ spectroscopic investigation of the molecular and electronic structures of SiO₂ supported surface metal oxides. J Phys Chem C 111:14410–14425CrossRef

39.

Borghesi A, Guizzetti G, Marabelli F, Nosenzo L, Reguzzoni E (1984) Far-infrared optical properties of CrC13 and CrBr 3. Solid State Commun 52(4):463–465CrossRef

40.

Zhang Q, Wang Y, Ohishi Y, Shihido T, Takehira K (2001) Vanadium-containing MCM-41 for partial oxidation of lower alkanes. J Catal 202:308–318CrossRef

41.

Takehira K, Ohishi Y, Shishido T, Kawabata T, Takaki K, Zhang QH, Wang Y (2004) Behavior of active sites on Cr-MCM-41 catalysts during the dehydrogenation of propane with CO₂. J Catal 224:404–416CrossRef

42.

Groppo E, Lamberti C, Bordiga S, Spoto G, Zecchina A (2005) The structure of active centers and the ethylene polymerization mechanism on the Cr/SiO₂ catalyst: a frontier for the characterization methods. Chem Rev 105:115–184CrossRef

43.

Naydenov V, Tosheva L, Sterte J (2002) Spherical silica macrostructures containing vanadium and tungsten oxides assembled by the resin templating method. Microp Mosop Mat 55:253–263

44.

Tromp M, Moulin J, Reid G, Evans J (2007) Cr K-Edge XANES spectroscopy: ligand and oxidation state dependence—what is oxidation state? AIP Conf Proc 882:699–701CrossRef

Title: Synthesis and characterization of SiO2–CrO3, SiO2–MoO3, and SiO2–WO3 mixed oxides produced using the non-hydrolytic sol–gel process
Authors: Arthur A. Bernardes
Claudio Radtke
Maria do Carmo M. Alves
Ione M. Baibich
Márcia Lucchese
João Henrique Z. dos Santos
Publication date: 01-01-2014
Publisher: Springer US
Published in: Journal of Sol-Gel Science and Technology / Issue 1/2014
Print ISSN: 0928-0707
Electronic ISSN: 1573-4846
DOI: https://doi.org/10.1007/s10971-013-3188-1

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