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Modeling of Polyelectrolyte Adsorption from Micellar Solutions onto Biomimetic Substrates

[Image: see text] Depositing cationic polyelectrolytes (PEs) from micellar solutions that include surfactants (SU) onto surfaces is a rich, complex, highly relevant, and challenging topic that covers a broad field of practical applications (e.g., from industrial to personal care). The role of the mo...

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Autores principales: Banerjee, Soumi, Cazeneuve, Colette, Baghdadli, Nawel, Ringeissen, Stéphanie, Léonforte, Fabien, Leermakers, Frans A.M., Luengo, Gustavo S.
Formato: Online Artículo Texto
Lenguaje:English
Publicado: American Chemical Society 2017
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC5611677/
https://www.ncbi.nlm.nih.gov/pubmed/28832151
http://dx.doi.org/10.1021/acs.jpcb.7b05195
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author Banerjee, Soumi
Cazeneuve, Colette
Baghdadli, Nawel
Ringeissen, Stéphanie
Léonforte, Fabien
Leermakers, Frans A.M.
Luengo, Gustavo S.
author_facet Banerjee, Soumi
Cazeneuve, Colette
Baghdadli, Nawel
Ringeissen, Stéphanie
Léonforte, Fabien
Leermakers, Frans A.M.
Luengo, Gustavo S.
author_sort Banerjee, Soumi
collection PubMed
description [Image: see text] Depositing cationic polyelectrolytes (PEs) from micellar solutions that include surfactants (SU) onto surfaces is a rich, complex, highly relevant, and challenging topic that covers a broad field of practical applications (e.g., from industrial to personal care). The role of the molecular architecture of the constituents of the PEs are often overruled, or at least and either, underestimated in regard to the surface properties. In this work, we aim to evaluate the effect of a model biomimetic surface that shares the key characteristics of the extreme surface of hair and its concomitant chemo- and physisorbed properties onto the deposition of a complex PEs:SU system. To tackle out the effect of the molecular architecture of the PEs, we consider (i) a purely linear and hydrophilic PE (P(100)) and (ii) a PE with lateral amphiphilic chains (PegPE). Using numerical self-consistent field calculations, we show that the architecture of the constituents interfere with the surface properties in a nonintuitive way such that, depending on the amphiphilicity and hydrophilicity of the PEs and the hydrophobicity of the surface, a re-entrant adsorbing transition can be observed, the lipid coverage of the model hair surface being the unique control parameter. Such a behavior is rationalized by the anticooperative associative properties of the coacervate micelles in solution, which is also controlled by the architecture of the PEs and SU. We now expect that PEs adsorption, as a rule, is governed by the molecular details of the species in solution as well as the surface specificities. We emphasize that molecular realistic modeling is essential to rationalize and optimize the adsorption process of, for example, polymer conditioning agents in water-rinsed cosmetic or textile applications.
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spelling pubmed-56116772017-09-26 Modeling of Polyelectrolyte Adsorption from Micellar Solutions onto Biomimetic Substrates Banerjee, Soumi Cazeneuve, Colette Baghdadli, Nawel Ringeissen, Stéphanie Léonforte, Fabien Leermakers, Frans A.M. Luengo, Gustavo S. J Phys Chem B [Image: see text] Depositing cationic polyelectrolytes (PEs) from micellar solutions that include surfactants (SU) onto surfaces is a rich, complex, highly relevant, and challenging topic that covers a broad field of practical applications (e.g., from industrial to personal care). The role of the molecular architecture of the constituents of the PEs are often overruled, or at least and either, underestimated in regard to the surface properties. In this work, we aim to evaluate the effect of a model biomimetic surface that shares the key characteristics of the extreme surface of hair and its concomitant chemo- and physisorbed properties onto the deposition of a complex PEs:SU system. To tackle out the effect of the molecular architecture of the PEs, we consider (i) a purely linear and hydrophilic PE (P(100)) and (ii) a PE with lateral amphiphilic chains (PegPE). Using numerical self-consistent field calculations, we show that the architecture of the constituents interfere with the surface properties in a nonintuitive way such that, depending on the amphiphilicity and hydrophilicity of the PEs and the hydrophobicity of the surface, a re-entrant adsorbing transition can be observed, the lipid coverage of the model hair surface being the unique control parameter. Such a behavior is rationalized by the anticooperative associative properties of the coacervate micelles in solution, which is also controlled by the architecture of the PEs and SU. We now expect that PEs adsorption, as a rule, is governed by the molecular details of the species in solution as well as the surface specificities. We emphasize that molecular realistic modeling is essential to rationalize and optimize the adsorption process of, for example, polymer conditioning agents in water-rinsed cosmetic or textile applications. American Chemical Society 2017-08-23 2017-09-21 /pmc/articles/PMC5611677/ /pubmed/28832151 http://dx.doi.org/10.1021/acs.jpcb.7b05195 Text en Copyright © 2017 American Chemical Society This is an open access article published under a Creative Commons Non-Commercial No Derivative Works (CC-BY-NC-ND) Attribution License (http://pubs.acs.org/page/policy/authorchoice_ccbyncnd_termsofuse.html) , which permits copying and redistribution of the article, and creation of adaptations, all for non-commercial purposes.
spellingShingle Banerjee, Soumi
Cazeneuve, Colette
Baghdadli, Nawel
Ringeissen, Stéphanie
Léonforte, Fabien
Leermakers, Frans A.M.
Luengo, Gustavo S.
Modeling of Polyelectrolyte Adsorption from Micellar Solutions onto Biomimetic Substrates
title Modeling of Polyelectrolyte Adsorption from Micellar Solutions onto Biomimetic Substrates
title_full Modeling of Polyelectrolyte Adsorption from Micellar Solutions onto Biomimetic Substrates
title_fullStr Modeling of Polyelectrolyte Adsorption from Micellar Solutions onto Biomimetic Substrates
title_full_unstemmed Modeling of Polyelectrolyte Adsorption from Micellar Solutions onto Biomimetic Substrates
title_short Modeling of Polyelectrolyte Adsorption from Micellar Solutions onto Biomimetic Substrates
title_sort modeling of polyelectrolyte adsorption from micellar solutions onto biomimetic substrates
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC5611677/
https://www.ncbi.nlm.nih.gov/pubmed/28832151
http://dx.doi.org/10.1021/acs.jpcb.7b05195
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