Using surface tension measurements, solubilization, and fluorescence spectroscopy, polyesters based on aliphatic dicarboxylic acids and PEG-1000 have been shown to form monomolecular micelles in aqueous solutions at the concentrations of 10-7–10-4 %. With increasing concentration, the monomolecular micelles have been revealed to aggregate to afford polymolecular micelles. The amphiphilic polyesters have been demonstrated to possess invertibility and thus respond to the change in a medium polarity as well as adsorb at hydrophilic and hydrophobized dispersed silica surface. Using 2-naphthol, the adsorbed amphiphilic polyester layers have been shown to solubilize sparingly water-soluble organic compounds.
[1] Wu J., Harwell J. and O’Rear E.: Langmuir, 1987, 3, 531.
[2] Zhu B., Xhao X. and Gu T.: J. Chem. Soc. Faraday Trans. 1, 1988, 84, 3951.
[3] Esumi K. and Yamada T.: Langmuir, 1993, 9, 622.
[4] Sakai K., Nakajima E., Takamatsu Y. et al.: J. Oleo Sci., 2008, 57, 423.
[5] Sakhalkar S. and Hirt D.: Langmuir, 1995, 11, 3369.
[6] Rosen M. and Li F.: J. Colloid Interface Sci., 2001, 234, 418.
[7] Saeki A., Sakai H., Kamogawa K. et al.: Langmuir, 2000, 16, 9991.
[8] Talbot D., Bee A. and Treiner C.: J. Colloid Interface Sci., 2003, 258, 20.
[9] Dickson J. and O’Haver J.: Langmuir, 2002, 18, 9171.
[10] Sun L., Zhang C., Chen L. et al.: Anal. Chim. Acta, 2009, 638, 162.
[11] Moral A., Sicilia M., Rubio S. and Perez-Bendito D.: Anal. Chim. Acta, 2006, 569, 132.
[12] Adak A., Pal A. and Bandyopadhyay M.: Colloids Surf. A, 2006, 277, 63.
[13] Garcia-Prieto A., Lunar L., Rubio S. and Perez-Bendito D.: Analyst, 2006, 131, 407.
[14] Yamada K.-I., Mukaihata N., Kawahara T. and Tada H.: Langmuir, 2007, 23, 8593.
[15] Zhao X., Li J., Shi Y., Cai Y. et al.: J. Chromatogr. A, 2007, 1154, 52.
[16] Perez-Bendito D., Rubio S. and Merino F.: Methods Biotechnol., 2006, 19, 405.
[17] Esumi K.: J. Colloid Interface Sci., 2001, 241, 1.
[18] Charoensaeng A., Sabatin, D. and Khaodhiar S.: J. Surfact. Deterg., 2009, 12, 209.
[19] Li F. and Rosen M.: J. Colloid Interface Sci., 2000, 224, 265.
[20] Esumi K., Uda S., Goino M. et al.: Langmuir, 1997, 13, 2803.
[21] Favoriti P., Monticone V. and Treiner C.: J. Colloid Interface Sci., 1996, 179, 173.
[22] Okamoto N., Yoshimura T. and Esumi K.: J. Colloid Interface Sci., 2004, 275, 612.
[23] Li L., Wang L., Du X., Lu Y. et al.: Colloid Interface Sci., 2007, 315, 671.
[24] Saphanuchart W., Saiwan C. and O'Haver J.: Colloids Surf. A, 2008, 317, 303.
[25] Talman R. and Atun G.: Colloids Surf. A, 2006, 281, 15.
[26] Esumi K., Hayashi H., Koide Y. et al.: Colloids Surf. A, 1998, 144, 201.
[27] Asnachinda E., Khaodhiar S. and Sabatini D.: J. Surfact. Deterg., 2009, 12, 379.
[28] Tsurumi D., Yoshimura T. and Esumi K.: J. Colloid Interface Sci., 2006, 297, 465.
[29] Tsurumi D., Sakai K., Yoshimura T. and Esumi K.: J. Colloid Interface Sci., 2006, 302, 82.
[30] Alexandridis P., Holzwarth J. and Hatton T.: Macromolecules, 1994, 27, 2414.
[31] Levitz P.: Langmuir, 1991, 7, 1595.
[32] McDermott D., Lu J., Lee E. et al.: Langmuir, 1992, 8, 1204.
[33] Tiberg F., Jönsson B., Tang J. and Lindman B.: Langmuir, 1994, 10, 2294.
[34] Balazs A. and Gempe M.: Macromolecules, 1991, 24, 168.
[35] Malmsten M., Linse P. and Cosgrove T.: Macromolecules, 1992, 25, 2474.
[36] Elisseeva O., Besseling N., Koopal L. and Cohen Stuart M.: Langmuir, 2005, 21, 4954.
[37] Eskilsson K. and Tiberg F.: Macromolecules, 1997, 30, 6323.
[38] Eskilsson K. and Tiberg F.: Macromolecules, 1998, 31, 5075.
[39] Alexandridis P. and Hatton T.: Colloids Surf. A, 1995, 96, 1.
[40] Wanka G., Hoffmann H. and Ulbricht W.: Macromolecules, 1994, 27, 4145.
[41] Rilla R., Liu Y., Van Winkle D. and Locke B.: J. Chromatogr. A, 1998, 817, 287.
[42] Hunter R.: Foundations of Colloid Science, V.1. Oxford University Press, Oxford 1987.
[43] Linse P. and Malmsten M.: Macromolecules, 1992, 25, 5434.
[44] Mortensen K. and Pedersen J.: Macromolecules, 1993, 26, 805.
[45] Mortensen K. and Brown W.: ibid, 4128.
[46] Mortensen K., Brown W. and Norden B.: Phys. Rev. Lett., 1992, 68, 2340.
[47] Voronov A., Kohut A., Gevus O. et al.: Langmuir, 2006, 22, 1946.
[48] Kohut A., Voronov A., Tokarev V. et al.: Langmuir, 2006, 22, 6498.
[49] Voronov A., Kohut A. and Peukert W.: Langmuir, 2007, 23, 504.
[50] Kohut A., Voronov A., Samaryk V. and Peukert W.: Macromol. Rapid Commun., 2007, 28, 1410.
[51] Voronov A., Kohut A. and Peukert W.: Langmuir, 2007, 23, 360.
[52] Voronov A., Kohut A., Vasylyev S. and Peukert W.: Langmuir, 2008, 24, 12587.
[53] Voronov A., Vasylyev S., Kohut A. and Peukert W.: J. Colloid Interface Sci., 2008, 323, 379.
[54] Martinez Tomalino L., Voronov A., Kohut A. and Peukert W.: J. Phys. Chem. B, 2008, 112, 6338.
[55] Kohut A. and Voronov A.: Langmuir, 2009, 25, 4356.
[56] Nuysink J. and Koopal L.: Talanta, 1982, 29, 495.
[57] Davies J. and Rideal E.: Interfacial Phenomena. Academic Press, New York 1961.
[58] Reichardt C.: Chem. Rev., 1594, 94, 2319.
[59] Kohut A., Voronov A. and Voronov S.: Chem. & Chem. Techn., 2013, 3, 261.
[60] Schmitz C., Mourran A., Keul H. and Möller M.: Macromol. Chem. Phys., 2008, 209, 1859.
[61] Wilhelm M., Zhao C., Wang Y. et al.: Macromolecules, 1991, 24, 1033.
[62] Esumi K.: J. Jpn. Soc. Colour Mater., 1997, 70, 675.
[63] Alexandridis P., Athanassiou V., Fukuda S. and Hatton T.: Langmuir, 1994, 10, 2604.