Controlled adsorption-desorption of cationic polymers on the surface of anionic latex particles |
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Authors: | A. A. Rakhnyanskaya I. D. Pebalk V. N. Orlov I. A. Gritskova N. I. Prokopov A. A. Yaroslavov |
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Affiliation: | (1) Faculty of Medicine, School of Pharmacy, Department of Pharmaceutics, The Hebrew University of Jerusalem, Jerusalem, Israel;(2) Faculty of Medicine, School of Pharmacy, Department of Medicinal Chemistry and Natural Products, The Hebrew University of Jerusalem, Jerusalem, Israel;(3) The Hebrew University of Jerusalem School of Pharmacy, P.O. Box 12065, Jerusalem, 91120, Israel;(4) Affiliated with the David R. Bloom Center of Pharmacy, Jerusalem, Israel; |
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Abstract: | The complexation of anionic latex particles with two series of cationic copolymers is studied. The copolymers of the first series contain cationic and electroneutral (zwitter ion) hydrophilic units. The electrostatic adsorption of these copolymers on the surface of latex particles is accompanied by the formation of multiple salt bridges between cationic copolymer units and surface anionic groups. The dependence of ultimate adsorption on the molar fraction of cationic groups in copolymer α is described by a bell-shaped curve with a maximum at α = 0.05−0.10 and a long horizontal portion at α > 0.24. In terms of the adsorption theory of polyampholytes, such a pattern of the adsorption curve results from the compromise between the attraction of polymer chains to the surface induced by their polarization in the electric field of particles and the repulsion of like charged macromolecular units. The stability of complexes with the copolymers of the first series in water-salt media increases with an increase in α. The copolymers of the second series contain cationic and hydrophobic units. In this case, an increase in α is accompanied by a decrease in the amount of the adsorbed polymer throughout the studied α range (0.24–1). The complexes are stabilized not only via electrostatic interactions but also via hydrophobic interactions. A decrease in α decreases the role of electrostatics in stabilization of the complexes; however, this effect is compensated for by an increase in the number of hydrophobic contacts. This allows the stability of complexes to be preserved in concentrated water-salt solutions. The results of this study indicate that the stability of interfacial layers with the participation of cationic copolymers can be changed in a wide range by varying the ratio of ionic and electroneutral (hydrophilic or hydrophobic) comonomers in macromolecules. |
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