Abstract
A surface modification procedure based on the cold plasma technique has been utilized in order to introduce new functional groups onto muscovite mica surfaces. In the first reaction step mica surfaces are exposed to a water vapor plasma. The interaction between mica surfaces and reactive species in the plasma results in formation of surface hydroxyl groups. These groups are reactive toward chlorosilanes in the gas phase, which provides a versatile way to obtain mica surfaces with a variety of different surface chemical groups. For instance, poly(thylene oxide) chains have been covalently attached to mica surfaces. — In a different surface modification route, mica surfaces have been coated with thin plasma polymer layers. Mechanical and surface properties of plasma polymer films depend, of course, on the type of monomer, but also on the condition used during polymerization (e.g., flow rate, pressure and discharge power). The surface force technique has, together with spectroscopic analyses, provided information about how the adhesion force and mechanical strength of different plasma polymers of acrylic acid depend on the polymer structure.
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Claesson PM, Herder P, Stenius P, Eriksson JC, Pashley RM (1986) J Colloid Interface Sci 109:31
Herder PC, Claesson PM, Herder CE (1987) J Colloid Interface Sci 119:155
Tabor D, Winterton RHS (1969) Proc Roy Soc A312:435
Israelachvili JN, Tabor D (1972) Proc Roy Soc A331:19
Israelachvili JN, Adams GE (1978) J Chem Soc Faraday Trans I 74:975
Parker JL, Christenson HK, Ninham BW, Rev Sci Instrum, (1989) 60:3135
Derjaguin BV (1960) Scientific American 203:47
Peschel G, Belouschek P, Muller MM, Muller MR, König R (1982) Colloid Polymer Sci 260:444
Rabinovich YI, Derjaguin BV (1988) Colloids Surf 30:243
Horn RG, Smith DT, Haller W (1989) Chem Phys Lett 162:404
Horn RG, Clarke DR, Clarkson MT (1988) J Mater Res 3:413
Smith CP, Maeda M, Atanasoska HS, White DJ, McClure (1988) J Phys Chem 92:199
Israelachvili JN, Pashley RM (1984) J Colloid Interface Sci 98:500
Marra J (1985) J Colloid Interface Sci 107:446
Claesson PM, Berg JB, Thin Solid Films, (1989) 176:157
Christenson HK, Claesson PM, Herder PC, Berg JM (1989) J Phys Chem 93:1472
Roberts G, Barton J, Flanagan M, Grey G, Pitt C, Shanks I, Schildt M (1984) “Langmuir-Blodgett Films — Current Status and Prospects for Further Development”. The report of the Langmuir-Boldgett working party to the Science and Engineering Research Council, UK
Parker JL, Cho DL, Claesson PM, J Phys Chem, in press
Parker JL, Claesson PM, Cho DL, Ahlberg A, Tidblad J, Blomberg E, J Colloid Interface Sci, in press
Cho DL, Claesson PM, Gölander CG, Johansson K, submitted J Applied Polymer Sci, in press
Israelachvili JN (1973) J Colloid Interface Sci 44:259
Horn RG, Israelachvili JN, Pibac F (1987) J Colloid Interface Sci 115:480
Christenson HK (1988) J Colloid Interface Sci 121:170
Claesson PM, Christenson HK (1988) J Phys Chem 92:1650
Eriksson JC, Ljunggren S, Claesson PM (1989) J Chem Soc Faraday Trans 2 85:163
van Oss CJ, Good RJ (1988) J Dispersion Sci Tech 9:355
Claesson PM, Kjellander R, Stenius P, Christenson HK (1986) J Chem Soc Faraday Trans 1 82:2735
Carvell M, Hall DG, Lyle IG, Tiddy GJT (1986) Faraday Disc Chem Soc 81:223
Gölander CG, Kiss EJ (1988) Colloid Interface Sci 121:240
Claesson PM, Gölander CG (1987) J Colloid Interface Sci 117:366
Israelachvili JN (1985) “Intermolecular and Surface Forces with Applications to Colloidal and Biological Systems”, Academic Press, London
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© 1990 Dr. Dietrich Steinkopff Verlag GmbH & Co. KG
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Claesson, P.M., Cho, D.L., Gölander, C.G., Kiss, E., Parker, J.L. (1990). Functionized mica surfaces obtained by a cold plasma process. In: Lindman, B., Rosenholm, J.B., Stenius, P. (eds) Surfactants and Macromolecules: Self-Assembly at Interfaces and in Bulk. Progress in Colloid & Polymer Science, vol 82. Steinkopff. https://doi.org/10.1007/BFb0118275
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DOI: https://doi.org/10.1007/BFb0118275
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