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The process of formation of silica shells around emulsion droplets was investigated. The 1H-NMR spectroscopy was applied to follow the silica shell formation around emulsion droplets by hydrolysis and condensation of selected silanes in the emulsion system. (3- aminopropyl) triethoxysilane (APS) and dimethyloctadecyl [3-(trimethoxysilyl) propyl] ammonium chloride (DTSACl) were used as silica sources in microencapsulation process. The NMR analysis revealed strong dependence of the hydrolysis reaction rate on pH. Obtained information allowed selecting the optimal conditions for the formation of the capsules with silica shells. The obtained capsules' suspensions were stable for several weeks.
Słowa kluczowe
Rocznik
Tom
Strony
403--412
Opis fizyczny
Bibliogr. 22 poz., fig.
Twórcy
autor
autor
autor
autor
autor
autor
- Jerzy Haber Institute of Catalysis and Surface Chemistry, Polish Academy of Sciences, Niezpominajek st. 8, Krakow 30-239, Poland,, ncszczep@cyf-kr.edu.pl
Bibliografia
- 1. ARTAKI, F., BRADLEY, M., ZERDA, T.W., JONAS, J., 1985, NMR and Raman study of the hydrolysis reaction in sol-gel process. J. Phys. Chem. 89, 4399−4404.
- 2. BAILEY, J.K., MECARTNEY, M.L., 1992, Formation of colloidal silica particles from alkoxides. Colloids Surf. 63, 151−161.
- 3. BOGUSH, G.H., ZUKOSKI, I.V., 1991, Studies of the kinetics of the precipitation of uniform silica particles through the hydrolysis and condensation of silicon alkoxides. J. Colloid Interface Sci. 142, 1−18.
- 4. BRINKER, C.J., SCHERER, G.W., 1990, Eds. Sol-Gel Science; Academic Press: San Diego, p 108.
- 5. BYERS, C.H., HARRIS M.T., 1987, Controlled microcrystalline growth studies by dynamic laser-light-scattering methods. Ind. Eng. Chem. Res., 26, 1916−1923.
- 6. CARUSO, F., FIEDLER, H., 2000, Assembly of Beta-Glucosidase Multilayers on Spherical Colloidal Particles and Their use as Active Catalysts. Colloids Surfaces A: Physicochem. Eng. Aspects 169, 287−293.
- 7. DONATH, E., MOYA, S., 2002, Hollow polymer shells from biological templates: Fabrication and potential applications. Chem-Eur I vol. 8, (23) 5481−5485.
- 8. GEORGIEVA, R., MOYA, S.E., 2004, Permeability and Conductivity of Red Blood Cell Templated polyelectrolyte Capsules Coated with Supplementary Layers. Langmuir 20,1895−1900.
- 9. GRIGORIEV, D.O., BUKREEVA, T., 2008, New method for fabrication of loaded micro- and nanocontainers: Emulsion encapsulation by polyelectrolyte layer-by-layer deposition on the liquid core. Langmuir 24, 999−1004.
- 10. HARRIS, M.T., BRUNSON, R.R., 1990, The base-catalyzed hydrolysis and condensation reaction of dilute and concentration TEOS solutions. J. Non-Cryst. Solids 121, 397−403.
- 11. MATSOUKAS, T., GULAIR, E., 1988, Dynamics of growth of silica particles from ammonia-catalyzed hydrolysis of tetraethylorthosilicate. J. Colloid Interface Sci. 124(1), 252−261.
- 12. RADTCHENKO, I.L., GIERSIG, M., 2002, Inorganic particle synthesis in confined micron-sized polyelectrolyte capsules. Langmuir vol. 18, (21) 8204−8208
- 13. SCHLEICHER, L., GREEN, B.K., 1956. US Patent 2730456
- 14. SCHÜLER, C., CARUSO, F., 2001, Decomposable Hollow Biopolymer Capsules. Biomacromolecules, 2, 921−926
- 15. SHCHUKİN, D.G., RADTCHENKO, I.L., 2003, Synthesis of nanosized magnetic ferrite particles inside hollow polyelectrolyte capsules. J. Phys. Chem. B. 107(1), 86−90
- 16. SHCHUKIN, D.G., SUKHORUKOV, G.B., 2004, Fabrication of fluorescent rare earth phosphates in confined media of polyelectrolyte microcapsules. J. Phys. Chem. B. 108 (50), 19109−19113.
- 17. SHENG-LI, CHEN, 1996, Kinetics of Formation of Monodisperse Colloidal Silica Particles through the Hydrolysis and Condensation of Tetraethylorthosilicate. Ind. Eng. Chem. Res. 35, 4487−4493.
- 18. SUKHORUKOV, G., DAHNE, L., 2000, Controlled precipitation of dyes into hollow polyelectrolyte capsules based on colloids and biocolloids. Adv mater 12(2), 112−115.
- 19. SWAPAN K.G., 2006, Functional Coatings by Polymer Microencapsulation. Wiley-vch Verlag GmbH & Co. KGaA, Weinheim
- 20. SZCZEPANOWICZ, K., DRONKA-GORA, D., 2009, Chloroform Emulsions Containing TEOS, APS and DTSACl as Cores for Microencapsulation. Procedia Chem. 1, 1576−1583.
- 21. SZCZEPANOWICZ, K., HOEL, H.J., 2010, Formation of Biocompatible Nanocapsules with Emulsion Core and Pegylated Shell by Polyelectrolyte Multilayer Adsorption. Langmuir, 26(15), 12592–12597.
- 22. VAN BLAADEREN, A., VAN GEEST, J., 1992, Monodisperse colloidal silica spheres from tetraalkoxysilanes: Particle formation and growth mechanism. J. Colloid Interface Sci, 154(2), 481−501.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-article-BAT1-0043-0080