Charakterizace vybraných polyelektrolytových komplexů metodami strukturní a termické analýzy / Characterization of polyelectrolyte complexes using structural and thermal analysis

Řiháčková, Barbora

January 2016

This master thesis deals with study of chitosan-lignohumate, chitosan-polystyrenesulfonate, chitosan-alginate and chitosan-carrageenan polyelectrolyte complexes. The work was motivated by research of finding suitable alternative substance for lignohumate. The molecular weights of substances were characterized using SEC-MALLS. A degree and a character of the interactions between polyelectrolyte were studied by isothermal titration calorimetry and dynamic light scattering method. The calorimetric experiments proved that decreasing concentration of samples causes decreasing of heat flow. The best calorimetric measurements were provided by adding chitosan into polymer solution. The interactions between chitosan and polyanions and influence of mixing order were proved also by measuring intensity of zeta potential, Z-average of particle size and turbidity. New chitosan-based materials have a big potential in agriculture and medicine.

Studium transportních procesů v hydrogelech pomocí mikroreologických technik / Study of transport processes using microrheological techniques in hydrogels

Píšová, Denisa

January 2017

This diploma thesis is focused on the determintaion of viscoelastic properties of agarose hydrogels containing different polyelectrolytes by microrheological and macrorheological techniques. From microrheological techniques the dynamic light scattering was used. Firstly, the influence of different polyelectrolyte volume was studied. Then the effect of variously charged polyelectrolyte and ionic strenght on microrheological properties of agarose hydrogels were determined. Classic rheology was used to compare the results obtained using the DLS microrheology method. Finally, the results from macro- and microrheology were correlated with each other.

Využití metod rozptylu světla při studiu tvorby polyelektrolytových komplexů v systému biopolymer-tenzid / Light Scattering Techniques in the Study on Formation of Polyelectrolyte Complexes in the System Biopolymer-Surfactant

Valečková, Vendula

January 2017

This master thesis is dealing with the use of light scattering techniques in the study on formation of polyelectrolyte complexes in the system biopolymer-surfactant. Sodium hyaluronate was chosen as biopolymer and cetyltrimethylammonium bromide and karbethopendecinium bromide were selected as surfactants. The first precipitation experiments were performed to determine the optimal concentration range of surfactants for subsequent titration measurements performed on Zetasizer Nano ZS and for SEC-MALS analysis. The key parameters obtained from these measurements were the values of critical aggregation concentrations in hyaluronate-surfactant systems. It was found out that the increasing molecular weight of hyaluronan in these systems is causing reduction of obtained values of critical aggregation concentrations. Changes of Z-average particle size, zeta potential, polydispersity index, conformation plot, radius of gyration and molecular weight in the hyaluronan-surfactant system were monitored during experiments.

Studium bariérových a transportních vlastností vybraných polyelektrolytů v hydrogelových matricích pomocí difúzních technik / Study of barrier and transport properties of polyelectrolytes using diffusion techniques in hydrogels

Valentová, Kristýna

January 2017

This diploma thesis was focused on study of barrier and transport properties of selected polyelectrolytes in hydrogel matrices by using diffusion techniques. The study of these properties was performed in horizontal diffusion cells where is observed the change in diffusion probe concentration over time. Diffusion experiments were performed on an agarose hydrogel with the addition of alginate, hyaluronic acid, polystyrene sulfonate, humic acids and as a model probe rhodamine 6G was used. Important parts of this thesis are also the methods which characterize the substances and hydrogel matrices such as rheology and potentiometric titration. The main aim of this diploma thesis was to investigate the effect of interactions between passing model dye (rhodamine 6G) and the appropriate gel (agarose + polyelectrolyte) on the fundamental diffusion parameters (effective diffusion coefficient, lag time, etc.).

Protein interaction with polyelectrolytes and ligands: A structural and thermodynamic investigation

Yu, Shun

29 August 2017

Der erste Teil dieser Arbeit untersucht die Ladungswechselwirkung zwischen Proteinen und Polyelektrolyten. Dabei wird die Bindung von Polyakrylsäure (PAA) als kurzes Modell-Polyelektrolyt an Humanalbumin (HSA) in einer umfassenden experimentellen und theoretischen Studie untersucht und sehr gute Übereinstimmung der Resultate konnte festgestellt werden. Die Computersimulationen in dieser Arbeit wurden von Xiao Xu im Rahmen seiner Promotion durchgeführt. Thermodynamische Daten wurden mit Hilfe von Isothermer Titrationskalorimetrie (ITC) gesammelt und strukturelle Untersuchungen wurden mit Hilfe von Neutronenkleinwinkelstreuung (SANS) durchgeführt. Die Analyse von Bindungsaffinitäten zeigte eine eins zu eins Bindung von PAA mit HSA, die entropisch getrieben ist und strukturellen Untersuchungen weisen eine stabile Proteilstruktur unabhängig von der Adsorption durch PAA auf. Im zweiten Teil der Arbeit wird die Wechselwirkung zweier uremischer Toxinen, nämlich Phenylessigsäure (PhAA) und Indoxylsulfat (IDS), mit HSA untersucht. Eine wichtige Schlussfolgerung aus der Analyse der ITC Daten ist, dass begünstigende, hydrophobe Wechselwirkungen die treibende Kraft für die Adsorption von Toxinen an HSA sind, und dass hierbei die Enthalpie-Entropie-Kompensation (EEC) zu tragen kommt. Weiterhin zeigen SANS Untersuchungen, dass die Proteinstruktur trotz Adsorption stabil bleibt und konnte außerdem über Interpartikulare Wechselwirkung von HSA-Toxin Komplexen aufklären. Im Allgemeinen ist HSA strukturell unverändert durch die Adsorption von Liganden. Diese Feststellung erlaubt die Interpretation von ITC Daten, da damit gemessene Wärmeprozesse ausschließlich von Bindungsprozessen herrühren. Die vorliegende Arbeit konnte zeigen, dass eine ausführliche thermodynamische Analyse durch Kombination von theoretischer mit experimenteller Arbeit, eine umfassende Einsicht in die Mechanismen von Bindungsprozessen ermöglicht. / The first part of the thesis explores the charge-charge interaction between proteins and polyelectrolytes. Polyacrylic acid (PAA) is used as a short model polyelectrolyte to interact with human serum albumin (HSA) the most abundand protein in blood, in a comprehensive experimental and theoretical study. The results thereby coincide very well. Computer simulation studies were performed by Xiao Xu within the framework of his PhD thesis. Thermodynamic data were collected by means of isothermal titration calorimetry (ITC) and structural analysis performed using small-angle neutron scattering (SANS). The analysis of binding free energies revealed one to one binding that is mainly driven by entropy. Structural investigations give proof of the stability of the protein beside adsorption. In the second part, the interaction of two uremic toxins, namely phenylacetic acid (PhAA) and indoxyl sulfate (IDS), with HSA is studied. Systematic ITC experiments reveal two binding sites for both of the two toxins and show small dependence of binding affinities on ionic strength in contrast to PAA adsorption to HSA. This leads to the key conclusion that the favorable hydrophobic interaction is the driving contribution for adsorption and enthalpy-entropy compensation (EEC) effect comes into play. SANS studies of high concentrated HSA-toxin solutions proofed the stability of the protein structure and shed light on the interparticle interaction of HSA-toxin complexes. In general, HSA is structurally robust regardless of ligand uptake. This finding allows the interpretation of ITC data by confirming that the measured heat signals are purely associated to the binding process. The present thesis has demonstrated that a full thermodynamic analysis in combination with theoretical modelling can provide a comprehensive understanding of binding in terms of identifying driving forces and their contributions to protein ligand interaction.

Polyeletrolyt

Human Serum Albumin

Ligand

Isothermale Titrationskalorimetrie

polyelectrolyte

human serum albumin

ligand

isothermal titration calorimetry

530 Physik

WD 5275

VG 7107

ddc:530

Self-assembly and functionality of polymer bottle brushes on surfaces

Raguzin, Ivan

13 April 2015

In the past decade there has been a growing interest in one-dimensional (1D) nanostructures, such as nanowires, nanotubes and nanorods, owing to their size-dependent optical and electronic properties and their potential application as building blocks, interconnects and functional components for assembling nanodevices. One of the ways to obtain such architectures is a template-directed synthesis which is practically a straightforward route to 1D nanostructures. In this approach, the template simply serves as a scaffold, within (or around) which a different material is generated in situ and shaped into a nanostructure with its morphology complementary to that of the template. It is generally accepted that template-directed synthesis provides a simple, high-throughput, and cost-effective procedure that also allows the complex topology present on the surface of a template to be duplicated in a single step. In the current work, utilization of the molecular bottle brushes as templates is proposed for the fabrication of conductive nanorods. Their non-spherical macromolecular geometries and lengths up to a few hundred nanometers allow the application of these structures in nanowire synthesis. The variety of molecular bottle brush architectures and their composition enables the adjustment of appropriate conditions for the preparation of conductive materials. Moreover, the ability of the brushes to assemble on a surface under certain conditions provides their usage as building blocks for the preparation of complex conductive networks. Here, the preparation, characterization, and applications of molecular bottle brushes are discussed. Two main goals were pursued. First, to deepen the knowledge in the synthesis of molecular bottle brushes, and to investigate their behavior on the surface. Second, to explore the application of the brushes as templates or building blocks for the formation of conductive nanowires. For the purpose, new ways of molecular brush synthesis by using the “grafting to” approach had to be developed. It was found that the reaction of nucleophilic addition based on pentofluorophenol chemistry and a coupling “click chemistry” reaction can be used to fabricate molecular brushes. Both methods showed efficient results and demonstrated high reactivity of the backbone with the end groups of the side chains. The “click chemistry” approach, however, demonstrated better results considering higher thicknesses of the brushes and, therefore, higher grafting density of the side chains. The “grafting to” together with the “grafting from” methods are very powerful synthetic tools, which can be used in the fabrication of any desired molecular bottle brush architectures. Additionally, complexation of oppositely charged bottle polymer brushes at a single-molecule level using AFM and CryoTEM was experimentally investigated. It was found that polyelectrolyte complexes have “scrambled-egg” morphology, where oppositely charged polymer chains are not oriented parallel to each other but cross each other. Furthermore, molecular bottle brushes were used as templates for the preparation of conductive nanowires. Three approaches for their fabrication were tested. It was found that brushes could easily be covered with various conductive materials, for example conductive polymers or metals. It was showed that for very small, tiny objects as molecular bottle brushes, one can use FIB in order to build up electrodes at its ends. The electrodes could be sputtered with an accuracy of 500 nm and further be used in the determination of the conductivity. The molecular bottle brushes covered with palladium showed the resistance of 50 MΩ, which, regarding the size of the brush, corresponds to a conductivity of one single molecule being ~1 S*cm-1. The obtained conductivity data were in good correlation with the data found in literature. We believe that the molecular bottle brushes have high potential applicability for the building of complex conductive networks. Future refinement of the synthetic methods, combined with improvements in structuring and positioning of objects at the nanoscale, could lead to their implementation in the construction of high-performance electronic devices.

info:eu-repo/classification/ddc/540

ddc:540

O/W Emulsion Stabilised with Clay Particles and Anionic Surfactant as an Oily Sludge Model: Preparation, Characterization and Destabilization with Natural and Synthetic Polyelectrolytes

Rojas Reyna, Rosana del Coromoto

08 March 2011

Oily wastewater produced from petroleum and petrochemical refining processes is one of the gravest environmental threats. Oil waste ending up in sewers and dumps each year is equal to 25 times the amount of crude oil spilled in the Exxon Valdez accident (1989). Oil/Water separation covers a broad spectrum of industrial process operations. There are many techniques employed depending on each situation. The byproduct of water recovery from oily wastewater is a sludge rich in oil, surfactants and particles (oily sludge). The oily sludge still contains significant amounts of waters, which need to be recovered prior to its disposal. The use of polyelectrolytes for the flocculation of the emulsified oil and its separation from the aqueous phase is usually one of the steps of the wastewater as well as oily sludge treatment process. The efficiency of polyelectrolytes as floculants is quite often evaluated via trial and error and the appropriate polymer is selected according to the case. Even in scientific investigations it is rather common to use industrial oily sludge samples. The industrial oily sludge is characterized and treated by polyelectrolytes. Nevertheless industrial oily sludge is quite complicated and variable to be approximated by a model. For the systematic study of polyelectrolytes efficiency a stable, realistic and well-defined oily sludge model is necessary. In the present work an oily sludge model was successfully developed and characterized. The model consists on water, oil (kerosene), surfactant (sodium dodecyl sulphate, SDS) and clay particles (Blauton). The emulsifying efficiency of the surfactant and the clay were studied independently. The interactions between the surfactant and the clay including adsorption of the former on the later and cation exchange reactions were investigated. The four components were finally combined to form a series of emulsions varying the relative amounts of the emulsifiers for the highest stability to be encountered. Having concluded on the composition of the oily sludge model the efficiency of various polyelectrolytes was evaluated. Commercial natural (chitosans), synthetic (PolyDADMACs) polyelectrolytes and oilbreaks as well as lab-scale semi-synthetic polymers (modified chitosans) were tested. The flocculation efficiency was determined based on the amount and quality of water that was recovered as well as on the floc stability, size and sedimentation speed. The recovered water was characterized according to the environmental protection agency (EPA). The analysis included measurements on: total organic carbon (TOC), chemical oxygen demand (COD), biochemical oxygen demand (BOD5), total suspended solids (TSS) and pH. Selection of the appropriate flocculant also depends on the type of flocs formed in combination to the treatment following the flocculation. When filtration or centrifugation is used as a post-flocculation process the appropriate polymers are those that form large and porous flocs, as the case of the modified chitosans AG95 and AG97. Clarification devices on the other hand require dense flocs as these produced by the use of PolyDADMACs, commercial chitosans, oilbreaks and modified chitosans GA35, GA41 and AG79. Regarding the water quality, some of the polymers used that have low values of COD, TOC and BOD5, may not need the secondary treatment (biological) prior to discharge, such as P187K (PolyDADMAC) and GA41 (modified chitosan). The others require a biological treatment for the regulation limits to be reached. The pH values of modified chitosans (except of AG97), lab-scale PolyDADMACs and an oilbreak (OCAA) are all in range of the regulation limits. The applicability of biopolymers as flocculants for oil sludge dewatering is a relatively new field of investigation. As a consequence of the growing demand for environmentally friendly technologies as well as renewable resources the interest on natural flocculants has increased. The aminopolysaccharide chitosan and its modified derivatives have outstanding properties such as biocompability, biodegradability, hydrophilicity, adsorption, flocculating ability and antibacterial properties. These natural polymers derived from the sea-food industry waste products would be very useful as residue oil adsorbents in any oily wastewater and can be among the most promising candidates as a replacement of the synthetic flocculants. / Ölhaltiges Abwasser, das bei Erdöl- und petrolchemischen Raffinierungsprozessen entsteht, ist eine der größten Umweltgefahren. Dieses Altöl landet jedes Jahr in der Kanalisation und in Deponien. Es handelt sich dabei um die 25-fache Menge an Rohöl, die beim Unfall der Exxon Valdez (1989) ausgeflossen ist. Die Öl/Wasser-Trennung überspannt ein breites Spektrum industrieller Prozesse. Es gibt viele Techniken, die abhängig von jeder Situation eingesetzt werden. Das Nebenprodukt bei der Abtrennung von Wasser aus ölhaltigen Abwässern ist ein Schlamm (Ölschlamm), der reich an Öl, Tensiden und Partikeln ist. Der Ölschlamm enthält noch bedeutende Mengen an Wasser, die vor ihrer Entsorgung verwertet werden müssen. Die Verwendung von Polyelektrolyten zur Ausflockung des emulgierten Öls und seine Trennung von der wässrigen Phase ist in der Regel einer der Schritte zur Behandlung von Abwässern sowie ölhaltigen Schlämmen. Die Effizienz von Polyelektrolyten als Flockungsmittel wird ganz häufig über Versuch und Fehler bewertet, und das passende Polymer wird entsprechend dem jeweiligen Fall ausgewählt. Sogar in wissenschaftlichen Untersuchungen ist es eher üblich, industrielle Ölschlamm-Proben zu verwenden. Der industrielle Ölschlamm wird charakterisiert und mit Polyelektrolyten behandelt. Dennoch ist der industrielle Ölschlamm ziemlich kompliziert und variabel und muss durch ein Modell angenähert werden. Für die systematische Untersuchung der Effizienz von Polyelektrolyten als Flockungsmittel ist ein stabiles, realistisches und klar definiertes Ölschlamm-Modell notwendig. In der vorliegenden Arbeit wurde ein Ölschlamm-Modell erfolgreich entwickelt und charakterisiert. Das Modell besteht aus Wasser, Öl (Kerosin), Tensid (Natriumdodecylsulfat, SDS) und Tonteilchen (Blauton). Die Emulgiereffizienz des Tensids und des Tons wurden unabhängig voneinander untersucht. Die Wechselwirkungen zwischen dem Tensid und dem Ton, die sowohl die Adsorption des Ersteren auf dem Letzteren einschließen als auch einen Kationenaustausch, wurden untersucht. Die vier Komponenten des Ölschlamm-Modells wurden schließlich kombiniert und es wurde eine Reihe von Emulsionen hergestellt, bei denen die relativen Mengen der Emulsionsmittel verändert wurden, um eine möglichst hohe Stabilität zu erreichen. Nachdem ein geeignetes Ölschlamm-Modell zur Verfügung stand, wurde die Effizienz der verschiedenen Polyelektrolyte als Flockungsmittel bewertet. Kommerzielle natürliche (Chitosane), synthetische (PolyDADMACs) Polyelektrolyte und Oilbreaks sowie Labor-semi-synthetische Polymere (modifizierte Chitosane) wurden getestet. Die Flockungseffizienz wurde sowohl basierend auf der Menge und Qualität des Wassers, das zurückgewonnen wurde, als auch bezogen auf die Flockenstabilität, die Flockengröße und die Sedimentationsgeschwindigkeit bestimmt. Das zurückgewonnene Wasser wurde entsprechend der Vorschriften der Behörde für Umweltschutz (EPA) charakterisiert. Die Analysen enthielten die Bestimmung des gesamten organischen Kohlenstoffs (TOC), des chemischen Sauerstoffbedarf (CSB), des biochemischen Sauerstoffbedarfs (BSB5), des Gesamtgehalts an suspendierten Partikeln (TSS) und die Bestimmung des pH. Die Auswahl geeigneter Flockungsmittel hängt auch von der Art der gebildeten Flocken, in Kombination mit der Behandlung, die den Flockungsprozess folgt, ab. Wenn als Postflockungsprozess Filtration oder Zentrifugation folgen, sollten Polymere verwendet werden, die große und poröse Flöckchen bilden, wie im Fall der modifizierten Chitosane AG95 und AG97. Andererseits verlangen Geräte zur Klärung von Abwässern dichte Flocken, wie solche, die beim Einsatz von PolyDADMACs, kommerziellen Chitosanen, Oilbreaks und den modifizierten Chitosanen GA35, GA41 und AG79 entstehen. In Bezug auf die Wasserqualität erhält man mit einigen der verwendeten Polymere so niedrige Werte von CSB, TOC und BSB5, dass wie im Falle von P187K (PolyDADMAC) und GA41 (modifiziertes Chitosan) keine biologische Sekundärbehandlung notwendig ist. Im Falle der anderen Polymere ist eine biologische Behandlung nötig, um die vorgeschriebenen Grenzen zu erreichen. Die pH-Werte der modifizierten Chitosane (außer der AG97), der im Labor hergestellten PolyDADMACs und des Oilbreak OCAA sind alle in Bereich der vorgeschriebenen Grenzen. Die Anwendbarkeit von Biopolymeren als Flockungsmittel für die Ölschlammentwässerung ist ein relativ neuer Forschungsbereich. Als Folge der wachsenden Nachfrage nach umweltfreundlichen Technologien sowie erneuerbarer Ressourcen hat das Interesse an natürlichen Flockungsmitteln zugenommen. Das Aminopolysaccharidchitosan und dessen modifizierte Produkte haben hervorragende Eigenschaften wie Biokompatibilität, Biodegradierbarkeit, Hydrophilie, Adsorption, die Fähigkeit zur Flockung und antibakterielle Eigenschaften. Diese natürlichen Polymere, die aus Meeresfrüchte-Industrieabfallprodukten gewonnen werden, sollten als Restöl-Adsorbentien bei der Aufarbeitung jedes ölhaltigen Abwassers sehr nützlich sein und können zu den vielversprechendsten Kandidaten als Ersatz der synthetischen Flockungsmittel werden.

info:eu-repo/classification/ddc/660

ddc:660

Structure et mécanisme d’élaboration de biomatériaux par complexation contrôlée de polysaccharides / Structure and elaboration mechanism of biomaterials by controlled complexation of polysaccharides

Costalat, Marie

03 December 2014

Nos travaux ont porté sur le développement d'une méthode contrôlée de complexation de polyélectrolytes. La complexation est un processus spontané, sous contrôle cinétique et irréversible dans le cas de polysaccharides tels que le chitosane et les polysulfates, essentiellement le sulfate de dextrane ou l'héparine. Une conséquence de ce contrôle cinétique est que l'obtention d'objets de taille colloïdale requiert de travailler à fortes dilutions. De plus, les nanovecteurs obtenus ne sont pas toujours compatibles avec des conditions d'utilisation dans des milieux physiologiques. Le contrôle de l'association de polysaccharides se fait par écrantage des interactions électrostatiques attractives en présence de chlorure de sodium à la concentration au moins égale à 2 mol.L-1. L'élimination du sel par dialyse induit la formation d'hydrogels dont les caractéristiques et les propriétés dépendent principalement du rapport de charges n+/n- et de la cinétique d'élimination du sel. Ainsi, l'on peut former des hydrogels massifs ou des systèmes dispersés à des concentrations en polymères jusqu'à 30 fois plus élevées que par les méthodes sous contrôle cinétique. De plus, cette technologie permet l'encapsulation des principes actifs dans les particules qui peuvent aussi être fonctionnalisées par des biomolécules d'adressage. Le résultat majeur de ce travail réside en la maîtrise des associations entre polysaccharides de charges opposées, permettant d'obtenir des systèmes colloïdaux et massifs à fort potentiels d'applications biomédicales / Our work dealt with the development of a controlled method of polyelectrolyte complexation. The complexation is a spontaneous process, under kinetic control and irreversible in the case of polysaccharides such as the chitosan and polysulfates, essentially dextran sulfate or heparin. A consequence of this kinetic control is the requirement to work at high dilution to obtain objects of colloidal size. Moreover, the obtained nanovectors were not always adapted for use in physiological media. The control of the association of polysaccharides was achieved by screening the attractive electrostatic interactions in the presence of sodium chloride at concentration at least equal to 2 mol. L-1. Removal of salt by dialysis resulted in the formation of hydrogels, whose characteristics and properties depended mainly on the charge ratio n +/ n- and the kinetics of the salt elimination. Thus, massive or dispersed hydrogels were formed at polymer concentrations up to 30 times higher than by the methods under kinetic control. Furthermore, this technology allowed the encapsulation of active ingredients in the particles that could also be functionalized with biomolecules for targeting. The major result of this work was the control over the associations between oppositely charged polysaccharides which provided colloidal and massive systems of high potentialities in biomedical applications

Chitosane

Sulfate de dextrane

Colloïde

Macrohydrogel

Association réversible

Complexe polyélectrolyte

Anticorps

Encapsulation

Chitosan

Dextran sulfate

Colloid

Macrohydrogel

Reversible association

Polyelectrolyte complexation

Antibodies

Encapsulation

620.11

Multifunctional Chitosan-based Complexes for Nanomedicine / Complexes multifonctionnel à base de chitosane pour la nanomédecine

Wu, Danjun

14 December 2015

Ce travail est consacré à l'élaboration de nano-complexes polyélectrolytes (CPEs) ayant une stabilité améliorée en milieux physiologiques et à l'exemplification de leur fort potentiel d'application comme système de délivrance de (macro) molécules bioactives. Le chitosane comme polycation a été compléxé avec quatre polyanions naturels ayant différents densités de charges et groupements fonctionnels(-COO- et SO3-) à savoir l'acide hyaluronique (HYA), le chondroïtine sulfate (ChonS), le sulfate de dextrane (DS) et l'héparine (HEP). Les facteurs qui influent sur la formation et les propriétés physico-chimiques des nano-complexes chitosane-HYA ont été étudiés. Ces nanovecteurs perdent leur caractère colloïdal en milieux physiologiques. Pour améliorer leur stabilité dans ces conditions, une stratégie innovante qui implique l'ajout de zinc a été conçue. Cette stratégie de stabilisation a été démontrée comme étant polyvalente et a été étendue aux complexes polyélectrolytes (CPEs) chitosane-ChonS. Même si de cette manière une stabilité à long terme a été observée, cette stratégie reste uniquement applicable aux CPEs cationiques. Pour cette raison, une approche alternative permettant l'amélioration de la stabilité des colloïdes à charges positives ou négatives a été mise en oeuvre en concevant des nano-complexes de type coeur-couronne ternaires composés de polyacides forts c'est-à-dire de DS ou d'HEP associés au chitosane en coeur et un complexe chitosane-HYA en couronne. Tous les nano-complexes stables obtenus peuvent encapsuler le ténofovir, une molécule antirétrovirale et être fonctionnalisés par des IgAs de ciblage. En in vitro, ces nanovecteurs montrent une inhibition de l'infection des PBMC par le virus VIH-1 supérieure à l'antirétrovirale seule / This work is devoted to the elaboration of nano-polyelectrolyte complexes (PECs) systems with improved stability in physiological media and to the establishment of their high potential of applications as bioactive (macro) molecule delivery systems. Chitosan as polycation were complexed with four natural polyanions of different charged groups and densities (-COO- and SO3 - as negative charges), namely hyaluronan (HYA), chondroitin sulfate (ChonS), dextran sulfate (DS) and heparin (HEP). The factors impacting the formation and physical-chemical properties of chitosan-HYA nanocomplexes were investigated. However, these nanovectors lost their colloidal character in physiological media. To improve their colloidal stability in physiological conditions, an innovative stabilization strategy was designed, involving zinc ion. This stabilization strategy proved versatile and was extended to chitosan-ChonS PECs. Though a long-term stability was achieved, this strategy was only applicable to cationic PECs. Therefore, an alternate approach enabled the improvement of the colloidal stability in physiological media of both positive and negative colloids by designing core-shell ternary polyelectrolyte nanocomplexes composed of strong polyacid (DS or HEP)-chitosan PECs as core and a chitosan-HYA complex as shell. Furthermore, all of the stabilized nanocomplexes allowed the encapsulation of active molecules anti-retroviral drug tenofovir and surface functionalization with targeting IgAs. In vitro, these nanovectors exhibited an inhibition of infection of PBMCs by HIV-1 virus which could be superior to the free drug

Chitosane

Acide Hyaluronique

Chondroïtine Sulfate

Héparine

Sulfate de dextrane

Complexes Polyélectrolytes

Stabilisation

Conditions physiologiques

Chitosan

Hyaluronan

Chondroitin sulfate

Heparin

Dextran sulfate

Polyelectrolyte Complexes

Stabilization

Physiological conditions

620.115

FACILE AND FAST FABRICATION OF FUNCTIONAL THIN FILMS VIA POLYELECTROLYTE LAYER-BY-LAYER ASSEMBLY

Cho, Szu-Hao

26 August 2020

No description available.

Materials Science

Polymers

polyelectrolyte layer-by-layer assembly

self-healing

thiol-ene click chemistry

slippery liquid-infused porous surfaces

patterned slippery surfaces