Zeta potential of particle bilayers on mica: A streaming potential study

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• 作者：Maria Zaucha ; ^a ; ^{nczaucha@cyf-kr.edu.pl"" rel=""nofollow} ; Zbigniew Adamczyk^a ; Jakub Barbasz^a
• 关键词：Bilayers of latex particles ; Deposition of particles on mica ; Latex particles on mica ; Mica covered by particles ; Streaming potential of particle covered surfaces ; Zeta potential of particles on mica ; Zeta potential of particle-covered surfaces
• 刊名：Journal of Colloid and Interface Science
• 出版年：2011
• 出版时间：1 August 2011
• 年：2011
• 卷：360
• 期：1
• 页码：195-203
• 全文大小：574 K

文摘

The streaming potential of mica covered by bilayers of latex particles was measured using the parallel-plate channel cell. The size of the first latex (A500) bearing amidine charged groups was 503 nm and the second latex (L800) bearing sulfonate groups was 810 nm (at pH 5.5 and an ionic strength of 10⁻² M). The A500 latex exhibited an isoelectric point at pH 10.5, whereas the L800 latex was strongly negative at all pH. Mica sheets were precovered first by the A500 latex particles under diffusion transport conditions. The coverage of this supporting layer was regulated between 0.02 and 0.5 by changing the bulk concentration of latex and the deposition time. Then, the second layer of the L800 latex of regulated coverage up to 0.55 was deposited under the diffusion transport. The coverage of particles and their distributions in both layers were determined by a direct enumeration of particles by optical microscopy under wet conditions and by AFM. It was shown that the structure of the L800 particle layers and the maximum coverage were in accordance with theoretical simulations performed according to the random sequential adsorption (RSA) model. After forming bilayers of desired composition and structure, streaming potential measurements were carried out. The influence of the mica substrate, the supporting layer coverage, and its zeta potential on the apparent zeta potential of bilayers was systematically studied. It was established that for a bilayer coverage exceeding 0.20, the net zeta potential became independent of the substrate and the supporting layer zeta potentials. Then, the asymptotic values of the zeta potential of the bilayer approach of the bulk zeta potential of the particles forming the external (second) layer. This behavior was interpreted theoretically in terms of the electrokinetic model derived previously for monolayers. It was also concluded that results obtained in this work can be exploited for interpretation of polyelectrolyte film formation in the layer by layer (LbL) processes and protein adsorption pertinent to the antigen/antibody interactions.