Polyelectrolyte Multilayers on Silica Surfaces: Effect of Ionic Strength and Sodium Salt Type

Salopek, Jasmina; Sadžak, Anja; Kuzman, Dino; Požar, Josip; Kovačević, Davor

doi:10.5562/cca3179

Croatica Chemica Acta, Vol. 90 No. 2, 2017.

Izvorni znanstveni članak

Polyelectrolyte Multilayers on Silica Surfaces: Effect of Ionic Strength and Sodium Salt Type

Jasmina Salopek ; Division of Physical Chemistry, Department of Chemistry, Faculty of Science, University of Zagreb, Horvatovac 102a, HR-10000 Zagreb, Croatia
Anja Sadžak ; Division of Physical Chemistry, Department of Chemistry, Faculty of Science, University of Zagreb, Horvatovac 102a, HR-10000 Zagreb, Croatia
Dino Kuzman ; Division of Physical Chemistry, Department of Chemistry, Faculty of Science, University of Zagreb, Horvatovac 102a, HR-10000 Zagreb, Croatia
Josip Požar ; Division of Physical Chemistry, Department of Chemistry, Faculty of Science, University of Zagreb, Horvatovac 102a, HR-10000 Zagreb, Croatia
Davor Kovačević orcid.org/0000-0001-6446-3459 ; Division of Physical Chemistry, Department of Chemistry, Faculty of Science, University of Zagreb, Horvatovac 102a, HR-10000 Zagreb, Croatia

Puni tekst: engleski pdf 7.118 Kb

str. 281-287

preuzimanja: 1.555

citiraj

APA 6th Edition

Salopek, J., Sadžak, A., Kuzman, D., Požar, J. i Kovačević, D. (2017). Polyelectrolyte Multilayers on Silica Surfaces: Effect of Ionic Strength and Sodium Salt Type. Croatica Chemica Acta, 90 (2), 281-287. https://doi.org/10.5562/cca3179

MLA 8th Edition

Salopek, Jasmina, et al. "Polyelectrolyte Multilayers on Silica Surfaces: Effect of Ionic Strength and Sodium Salt Type." Croatica Chemica Acta, vol. 90, br. 2, 2017, str. 281-287. https://doi.org/10.5562/cca3179. Citirano 21.11.2024.

Chicago 17th Edition

Salopek, Jasmina, Anja Sadžak, Dino Kuzman, Josip Požar i Davor Kovačević. "Polyelectrolyte Multilayers on Silica Surfaces: Effect of Ionic Strength and Sodium Salt Type." Croatica Chemica Acta 90, br. 2 (2017): 281-287. https://doi.org/10.5562/cca3179

Harvard

Salopek, J., et al. (2017). 'Polyelectrolyte Multilayers on Silica Surfaces: Effect of Ionic Strength and Sodium Salt Type', Croatica Chemica Acta, 90(2), str. 281-287. https://doi.org/10.5562/cca3179

Vancouver

Salopek J, Sadžak A, Kuzman D, Požar J, Kovačević D. Polyelectrolyte Multilayers on Silica Surfaces: Effect of Ionic Strength and Sodium Salt Type. Croatica Chemica Acta [Internet]. 2017 [pristupljeno 21.11.2024.];90(2):281-287. https://doi.org/10.5562/cca3179

IEEE

J. Salopek, A. Sadžak, D. Kuzman, J. Požar i D. Kovačević, "Polyelectrolyte Multilayers on Silica Surfaces: Effect of Ionic Strength and Sodium Salt Type", Croatica Chemica Acta, vol.90, br. 2, str. 281-287, 2017. [Online]. https://doi.org/10.5562/cca3179

Sažetak

The formation of polyelectrolyte multilayers on silica surfaces was investigated in the presence of binary 1:1 sodium salts (NaCl, NaBr and NaNO3) at various salt concentrations. The build-up of multilayers was monitored using electrophoretic light scattering and quartz crystal microbalance with dissipation monitoring techniques. As cationic polyelectrolyte poly(diallyldimethylammonium chloride) was used and as anionic poly(sodium 4-styrene sulfonate). The counterion specific formation of multilayers was observed at higher electrolyte concentrations and the more pronounced influence was observed in the case of nitrate and bromide than in the case of chloride salt. These results confirm that solely by adjusting the appropriate ionic strength and by choosing the electrolyte type, polyelectrolyte multilayers with various properties and structure can be obtained.

This work is licensed under a Creative Commons Attribution 4.0 International License.

Ključne riječi

polyelectrolyte multilayers; poly(diallyldimethylammonium chloride); poly(sodium 4-styrene sulfonate); silica; sodium salts; ionic strength; zeta-potential; QCM-D

Hrčak ID:

185992

URI

https://hrcak.srce.hr/185992

Datum izdavanja:

3.7.2017.

Posjeta: 2.920 *

Prijava i registracija

Croatica Chemica Acta, Vol. 90 No. 2, 2017.

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