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Synthesis of hepta(isobuthyl)ethyltriethoxysilyl- octasilsesquioxane and its application as a modifier of both hydrated and emulsion silicas

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Języki publikacji
EN
Abstrakty
EN
Hepta(isobuthyl)ethyltriethoxysilyloctasilsesquioxane was synthesized by hydro-silylation of hepta(isobuthyl)vinyloctasilsesquioxane with triethoxysilane, over Karstedt catalyst and tetrahydrofuran. Hybrid systems of silica and monofunctional silsesquioxane (SiO2/POSS) were obtained by solvent evaporation, using emulsion silica (ES) and hydrated silica (HS), obtained by precipitation in emulsion or water media. For their surface modification hepta(isobuthyl)ethyltriethoxysilyloctasilsesquioxane was used. The hybrids were characterized by dispersion analysis (NIBS method and laser diffraction technique) and morphological analysis (transmission electron microscopy) as well as wettability profiles in an aqueous system. The adsorptive properties of the hybrids were evaluated on the basis of surface area BET, pore volume and size. The effectiveness of modification of the hybrid fillers was tested by FTIR and 29Si CP MAS NMR.
Rocznik
Strony
619--630
Opis fizyczny
Bibliogr. 13 poz., fig.
Twórcy
autor
autor
autor
  • Poznan University of Technology, Faculty of Chemical Technology, Institute of Chemical Technology and Engineering, M. Skłodowskiej-Curie 2, PL-60965, Poznan, Poland, Teofil.Jesionowski@put.poznan.pl
Bibliografia
  • 1. BIANCHINI D., GALLAND G.B., DOS SANTOS J.H.Z., WILLIAMS R.J.J., FASCE D.P., DELL’ERBA I.E., QUIJADA R., PEREZ M., 2005, Metallocene supported on a PolyhedralOligomeric Silsesquioxane-modified silica with high catalytic activity for ethylene polymerization, Journal of Polymer Science: Part A: Polymer Chemistry, 43, 5465-5476.
  • 2. IYER S., ABU‒ALI A., DETWILER A., SEHIRALDI A., 2007, Transparent polymer – Polyhedral Oligomeric Silsesquioxane composities, ACS Symposium Series (Science and Technology of Silicones and Silicone‒Modified Materials), Cleveland, 964, 313-325.
  • 3. JANOWSKI B., PIELICHOWSKI K., 2008, Polimery nanohybrydowe zawierające poliedryczne oligosilseskwioksany, Polimery, 53, 87-98.
  • 4. JESIONOWSKI T., 2009, Preparation of spherical silica in emulsion systems using the co-precipitation technique, Materials Chemistry and Physics, 113, 839-849
  • 5. JESIONOWSKI T., ŻURAWSKA J., KRYSZTAFKIEWICZ A., POKORA M., WASZAK D., TYTUS W., 2003, Physicochemical and morphological properties of hydrated silicas precipitated following alkoxysilane surface modification, Applied Surface Science 205, 212-224.
  • 6. LIN P., KHARE R., 2009, Molecular simulation of cross‒linked epoxy and epoxy‒POSS nanocomposite, Macromolecules, 42, 4319-4327.
  • 7. MADHAVAN K., GNANASEKARAN D., REDDY B.S.R., 2009, Synthesis and characterization of poly(dimethylsiloxane-urethane) nanocomposites: Effect of (in)completely condensed silsesquioxanes on thermal, morphological, and mechanical properties, Journal of Applied Polymer Science, 114, 3659-3667.
  • 8. MATISONS J., 2010, Applications of Polyhedral Oligomeric Silsesquioxanes, Springer, New York. ]
  • 9. SZWARC K., SIWINSKA-STEFANSKA K., MARCINIEC B., JESIONOWSKI T., 2012, Synthesis and characterisation of SiO2/POSS hybrid systems obtained using the mechanical method, Physicochemical Problems of Mineral Processing, 48, 181-192.
  • 10. TANG Y., LEWIN M., 2009, Migration and surface modification In polypropylene (PP)/polyhedral oligomeric silsequioxane (POSS) nanocomposites, Polymers Advanced Technologies, 20, 1-15.
  • 11. WALLACE W.E., GUTTMAN C.M., ANTONUCCI J.M., 2000, Polymeric silsesquioxanes: degree-of-intramolecular-condensation measured by mass spectrometry, Polymer 41,2219-2226.
  • 12. WU J., MATHER P.T., 2009, POSS Polymers: Physical properties and biomaterials applications, Journal of Macromolecular Science, Part C: Polymer Reviews, 49, 25-63.
  • 13. ŻAK P., PIETRASZUK C., MARCINIEC B., SPÓLNIK G., DANIKIEWICZ W., 2009, Efficient functionalisation of cubic monovinylsilsesquioxanes via cross-metathesis and silylative coupling with olefins in the presence of ruthenium complexes, Advanced Synthesis and Catalysis, 351, 2675-2682.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-article-BAT1-0043-0098
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