Abstract
The surface structure of latex dispersion films was examined with an atomic force microscope. All measurements were done in air on latex films having a minimum film formation temperature of 12°C and a glass transition temperature of 18°C. One aim of this study was to follow structural changes during film formation. Three minutes after spreading the film, its surface layer dried. Afterwards, the structure of the film did not change anymore. Only after 4 months could structural changes be observed: Though individual latex particles could be identified, the particles partly melted into one another.
After annealing films at 50° or 60°C for 4 h, the latex particles partly melted into one another, but individual particles could still be identified. When annealing at or above 80°C, no individual latex particles were visible anymore. With increasing temperature the film roughness decreased from 3 nm without annealing to 0.8 nm at 100°C annealing temperature. In addition, islands of 2–4 nm thickness appeared on the film surface. These islands could be scraped off the film by increasing the force between tip and sample, indicating that they are composed of surfactant which was squeezed out of the film.
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References
Voyutskii SS (1958) J Polymer Sci 32:528–530
Daniels ES, Klein A (1991) Progr in Organic Coatings 19:359–378
Vanderhoff JW (1970) British Polym J 2:161–172
Roulstone BJ, Wilkinson MC, Hearn J (1992) Polym International 27:51–55
Zosel A, Ley G (1992) Polymer Bulletin 27:459–464
Zhao CL, Wang Y, Hruska Z, Winnik MA (1990) Macromolecules 23:4082–4087
Winnik MA, Wang Y, Haley F (1992) J Coatings Technol 64:51–61
Yoo JN, Sperling LH, Glinka CJ, Klein A (1991) Macromolecules 24:2868–2876
Roulstone BJ, Wilkinson MC, Hearn J (1992) Polym International 27:43–50
Linné MA, Klein A, Sperling LH, Wignall GD (1988) J Macromol Sci B27:181–216
Hahn K, Ley G, Oberthür R (1988) Colloid Polym Sci 266:631–639
Joanicot M, Wong K, Maquet J, Chevalier Y, Pichot C, Graillat C, Lindner P, Rios L, Cabane B (1990) Progr Colloid Polym Sci 81:175–183
Roulstone BJ, Wilkinson Mc, Hearn J, Wilson AJ (1991) Polym International 24:87–94
Wang Y, Juhué D, Winnik MA, Leung OM, Goh MC (1992) Langmuir 8:760–762
Juhué D, Lang J (1993) Langmuir 9:792–796
Vergé C, Sarrazin L (1993) paper presented at Eurocoat, Nizza, 13 Sept–18 Sept
Binnig G, Quate CF, Gerber C (1986) Phys Rev Lett 56:930–932
Sarid D (1991) Scanning Force Microscopy. Oxford University Press, New York
Eckersley ST, Rudin A (1990) J Coat Technol 62:89–100
Devon MJ, Gardon JL, Roberts G, Rudin A (1990) J Appl Polym Sci 39:2119–2128
Butt HJ (1991) Biophys J 60:1438–1444
Zenhausern F, Adrian M, Heggeler-Bordier BT, Eng LM, Descouts P (1992) Scanning 14:212–217
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Butt, H.J., Kuropka, R. & Christensen, B. Latex film formation studied with the atomic force microscope: Influence of aging and annealing. Colloid Polym Sci 272, 1218–1223 (1994). https://doi.org/10.1007/BF00657773
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DOI: https://doi.org/10.1007/BF00657773