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Thermal resistance of organic nanoparticle coatings for hydrophobicity and water repellence of paper substrates

Identyfikatory
Warianty tytułu
Języki publikacji
EN
Abstrakty
EN
The modification of paper substrates by organic nanoparticle coatings offers an attractive alternative for creating hydrophobic and water-repellent surfaces without fluorinated chemicals. The nanoparticles were synthesized by imidization of poly(styrene-maleic anhydride) and applied to a standard paper grade by means of a laboratory bar-coating process. The effects of supplementary heat treatments of the coated papers were investigated in terms of coating morphology and hydrophobicity: a unique coating structure is formed with a combination of microdomains that are internally structured at the nanoscale. The relatively high glass transition temperature of the nanoparticles allows for good thermal stability of the coating with almost no morphological changes at heating up to 180°C. The changes in chemical composition were investigated by diffuse reflectance infrared spectroscopy (DRIFT) and UV/VIS spectroscopy. The latter techniques qualitatively describe the effects of thermal treatments on the imide and styrene moieties. Contact angle measurements indicate that there is an optimum curing temperature in order to obtain a maximum advancing contact angle of 133° to 150°.
Rocznik
Strony
100--109
Opis fizyczny
Bibliogr. 22 poz., il., wykr.
Twórcy
autor
  • Ghent University - Department of Textiles, Technologiepark 907, B-9052 Zwijnaarde, Belgium
autor
  • Ghent University - Department of Textiles, Technologiepark 907, B-9052 Zwijnaarde, Belgium
autor
  • Ghent University - Department of Textiles, Technologiepark 907, B-9052 Zwijnaarde, Belgium
autor
  • Ghent University - Department of Materials Science and Engineering - Technologiepark 903, B-9052 Zwijnaarde, Belgium
  • Topchim N.V., Nijverheidsstraat 98, B-2160 Wommelgem, Belgium
autor
  • Topchim N.V., Nijverheidsstraat 98, B-2160 Wommelgem, Belgium
autor
  • Topchim N.V., Nijverheidsstraat 98, B-2160 Wommelgem, Belgium
Bibliografia
  • 1. Werner, O., Wagberg, L., Lindstrom, T., Wetting of structured hydrophobic surfaces by water droplets, Langmuir, 21, 12235-12243 (2005).
  • 2. Carlmark, A., Malmström, E., ATRP grafting from cellulose fibres to create block-copolymer grafts, Biomacromolecules, 4, 1740-1745 (2003).
  • 3. Vesel, A., Mozetic, M., Hladnik, A., Dolenc, J., Zule, J., Milosevic, S., Krstulovic, N., Klanjusek-Gunde, M., Hauptmann, N., Modification of ink-jet paper by oxygen-plasma treatment, J. Phys. D: Appl. Phys., 40, 3689-3696 (2007).
  • 4. Mukhopadhyay, S.M., Joshi, P., Datta, S., Zhao J.G., France, P., Plasma assisted hydrophobic coatings on porous materials: influence of plasma parameters, J. Phys. D: Appl. Phys., 35, 1927-1933 (2002).
  • 5. Li, S., Xie, H., Zhang, S., Wang, X., Facile transformation of hydrophilic cellulose into superhydrophobic cellulose, Chem. Commun., 45, 4857-4859 (2007).
  • 6. Cunha, A.G., Freire, C.S.R., Silvestre, A.J.D., Neto, C.P., Gandini, A., Orblin, E., Highly hydrophobic biopolymers prepared by the surface pentafluorobenzoylation of cellulose substrates, Biomacromolecules, 8, 1347-1352 (2007).
  • 7. Yuan, H., Nishiyama Y., Kuga, S., Surface Esterification of Cellulose by Vapor-Phase Treatment With Trifluoroacetic Anhydride, Cellulose, 12, 543-549 (2005).
  • 8. Andresen, M., Johansson, L.S., Tanem, B.S., Stenius, P., Properties and characterization of hydrophobized microfibrillated cellulose, Cellulose, 13, 665-677 (2006).
  • 9. Hubbe, M.A., Paper’s resistance to wetting - A review of internal sizing chemicals and their effects, Bioresources, 2, 106-145 (2007).
  • 10. Andersson, C.M., Järnström, L., Controlled penetration of starch and hydrophobic sizing agent in Surface Sizing of Porous Materials, Appita J., 59, 207-212 (2006).
  • 11. Han, J.H., Krochta, J.M., Physical properties and oil absorption of whey-protein-coated paper, J. Food Sci., 66, 294-299 (2001).
  • 12. Koskinen, M., Wilen, C.E., Preparation of core-shell latexes for paper coatings, J. Appl. Polym. Sci, 112, 1265-1270(2009).
  • 13. Xu, P., Zhong, W., Wang, H., Lin, Y., Du, Q., Study on water resistance of paper treated with polyacrylate microlatex, J. Appl. Polym. Sci., 95, 962-966 (2005).
  • 14. Ibrahim, K., Salminen, A., Holappa, S., Kataja, K., Lampinen, H., Löfgren, B., Laine, J., Preparation and characterization of polystyrene-poly(ethylene oxide) amphiphilic block copolymers via atom transfer radical polymerization: Potential application as paper coating materials, J. Appl. Pol. Sci., 102, 4304-4313 (2006).
  • 15. Sreekumar, J., Sain, M., Farnood R., Dougherty, W.,Influence of styrene maleic anhydride imide on ink-jet print quality and coating structure, Nord. Pulp Pap. Res. J., 22, 307-313 (2007).
  • 16. Fu, S.H., Fang, K.J., Preparation of styrene-maleic acid copolymers and its application in encapsulated pigment red 122 dispersion, J. Appl. Polym. Sci., 105, 317-321(2007).
  • 17. Samyn, P., Schoukens, G., Deconinck, M., Stanssens, D., Van den Abbeele, H., Synthesis and characterization of imidized poly(styrene-maleic anhydride) organic nanoparticles in stable aqueous dispersion, Polym. Adv. Technol., submitted (2010).
  • 18. Samyn, P., Deconinck, M., Schoukens, G., Stanssens, D., Vonck, L., Van den Abbeele, H., Modification of paper and paperboard surfaces with a nanostructured polymer coating, Prog. Org. Coat., in press (2010).
  • 19. Ozaki, Y., Christy, A., Gregoriou, V., Modern Fourier Transform: Infrared Spectroscopy, Elsevier, Amsterdam (2001).
  • 20. Kaczmarek, H., Felczak, A., Szalla, A., Studies of photochemical transformations in polystyrene and styrene-maleic anhydride copolymer, Polym. Degrad. Stab. 93, 1259-1266 (2008).
  • 21. Latov, V.K., Babievskii, K.K., Synthesis of optically active L-alanine maleimide-styrene copolymers, Rus. Chem. Bull., 21, 1976-1980 (1972).
  • 22. Mori, S., Influence of composition on ultraviolet absorption spectra of styrene-alkyl methacrylate and styrene-alkyl acrylate random copolymers, Analyt. Sci., 6, 27-32 (1990).
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-00ddeaf3-ebed-4fab-a765-d48adf6f0a52
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