HIGH PRECISION MACHINING AND OPTICAL SURFACE FINISH.

Nsabimana, Leonard

22 July 2022

No description available.

Industrial Engineering

Metal catalysed alkylation of carbonyl compounds with formaldehyde

Lorusso, Patrizia

January 2015

Formaldehyde is a chemical used widely in the manufacture of building materials. A remarkable example is represented by the Lucite two-step Alpha technology for the large scale production of methyl methacrylate (MMA), the essential building block of all acrylic-based products. Esters and ketones are important intermediates in the manufacture of acrylate esters therefore α-hydroxymethylenation of carbonyl compounds using formaldehyde as a one carbon alkylating agent and subsequent dehydration to the corresponding methylenated derivatives has been explored in the current work. We report a novel catalytic approach for the synthesis of methyl methacrylate (MMA) via one-pot α-methylenation of methyl propanoate (a chemical intermediate of the ALPHA process) with formaldehyde, generated in situ by Ru-catalysed dehydrogenation of methanol. Elucidation of the mechanism involved in the catalytic dehydrogenation of methanol along with the collateral alcohol decarbonylation reaction was gained through a combined experimental and DFT study. The development of an alternative process where anhydrous formaldehyde is produced in situ would provide a simplification over the current second step of the ALPHA technology where the formaldehyde is initially produced as formalin, subsequently dehydrated to afford anhydrous formaldehyde in order to ensure high selectivity to MMA. As an alternative approach, ketones, in particular 3-pentanone and 2-butanone, were targeted as potential substrates in order to overcome some of the problems related to competing reactions that occur at the ester group. Hydroxymethylenation, followed by dehydration and Baeyer-Villager oxidation, possibly catalysed by enzymes to reverse the normal selectivity, leads to the formation of acrylate esters. The catalytic reaction is enabled by a gold carbene hydroxide complex in such a way that the substrate undergoes C-H activation and the nascent metal alkyl acts as a nucleophile towards the electrophilic formaldehyde, supplied in the form of alcoform* (solution of paraformaldehyde in methanol).

547

MOCVD and electrochemical polymeric thin films : elaboration, characterization, properties ans applications / FIlms minces polymères par CVD et électrodeposition : élaboration, caractérisation, propriétes et applications

Manole, Claudiu Constantin

07 December 2012

Ce mémoire traite de deux types de polymères en films minces: le poly (méthacrylate de méthyle) (PMMA) et le polypyrrole (PPy). Ces films minces ont été déposés par voie sèche et par voie humide. La voie sèche consiste à faire croitre les films polymères par un procédé original de dépôt chimique en phase vapeur assisté par photons (Chemical Vapor Deposition, CVD). La croissance implique l'activation UV des espèces monomères dans la phase gazeuse. Les deux polymères PMMA et PPy ont été obtenus pour la première fois par ce procédé de photo-CVD. La caractérisation des propriétés a mis en évidence des applications possibles en microélectronique, micro-optique et les dispositifs générant de la chaleur. La voie humide mise en œuvre pour déposer des films minces de polymères et d’hybrides organiques/inorganiques est une méthode électrochimique. Des films de PPy (organique) et de TiO2 nanostructuré (inorganique) ont été obtenus et caractérisés par différentes techniques électrochimiques. Des aspects supplémentaires de la croissance de PPy ont été mis en évidence par la résonance des plasmons de surface. / The thesis deals with two types of polymeric thin films: poly (methyl methacrylate) (PMMA) and polypyrrole (PPy). The thin films were grown by a dry and a wet route. The dry route involved the growth of the polymeric films by an original process of Chemical Vapor Deposition, namely Photo-CVD. The growth involves the UV activation of the monomer species in the gas phase. Both PMMA and PPy were obtained for the first time by this Photo-CVD. The characterization highlighted properties with possible applications in microelectronics, micro-optics and as heat generating devices. The wet route involved the growth of polymeric and hybrid organic/inorganic thin films by an electrochemical approach. Organic PPy and inorganic TiO2 nanostructures were obtained and characterized by various electrochemical techniques. The growth aspects of PPy were supplementary highlighted by the Surface Plasmon Resonance.

Dépôt électrochimique

Poly (méthacrylate de méthyle)

Polypyrrole

Résonance plasmonique de surface

Photo-CVD

Electrochemical

Poly (methyl methacrylate)

Polypyrrole

Ti-rip

Spr

Étude de l'élaboration de nano-particules élastomères et application de celles-ci en tant qu'agents renforçants pour le poly(acide lactique) / Study of the development of elastomer nanoparticles and their application as reinforcing agents for poly(lactic acid)

Fang, Yuan

07 December 2012

Le poly (acide lactique) (PLA), est un polymère synthétisé à partir de ressources renouvelables, qui est l'objet de beaucoup d'études à l'heure actuelle mais qui souffre d'une faible résistance au choc. Le but de ce travail est de rechercher des pistes permettant la préparation d'un matériau à base de PLA avec une résistance au choc améliorée tout en minimisant la perte de résistance à la traction. Les travaux présentés ici ont étudié le rôle de nanoparticules élastomères de poly (acrylate de butyle) (PBA) chargées de laponite (LRD) (PBA-LRD) ainsi que de nanocomposites coeur-écorce (PBA-LRD)/poly(méthacrylate de méthyle) (PMMA) en tant qu'agents de renforcement d'une matrice de PLA. Ces nanoparticules ont été dispersées dans la matrice PLA à l'état fondu. La synthèse de ces nanoparticules a été effectuée par polymérisation en émulsion ou miniémulsion. La laponite a été incorporée dans les nanoparticules afin de minimiser la perte de la rigidité tout en améliorant la résistance au choc de PLA. Trois types de tensioactifs et des modifications de surface de la laponite ont été testées pour améliorer l'adhérence entre les particules de PBA et la matrice de PLA. Enfin une écorce de PMMA a été utilisée pour assurer la bonne adhérence entre les particules de PBA et de matrice PLA. Nous avons montré que les particules coeur-écorce ont permis d'augmenter la résistance au choc au 3 fois du PLA tout en réduisant la diminution du module d'Young et la perte de résistance à la traction (~25%). Les propriétés de les particules synthétiques et les propriétés des mélange du PLA avec les particules PBA ou particules coeur-écorce ont été étudiées par diverses techniques de caractérisation (DLS, FTIR, ATG, MET, MEB, RMN 1H, DSC, DMTA...) / Poly (lactic acid) (PLA), come from renewable resources, one of the most important biopolymers, suffers from weak impact resistance. The aim of this work is to develop a process that will allow preparing a PLA with improved impact resistance while minimizing loss in tensile strength. The work presented here examined in detail the synthesis of poly(butyl acrylate) (PBA) nanoparticles charged with laponite (LRD) (PBA-LRD) and (PBA-LRD) / poly(methyl methacrylate) (PMMA) core-shell nanocomposites. They were dispersed phase in PLA matrix and were synthesized by emulsion or miniemulsion polymerization. The clay such as laponite was included in these nanoparticles to minimize the loss of rigidity while improving the impact resistance of PLA. Note that three types of surfactants and some modify agents for LRD have been tried to improve the adhesion between the PBA particles and matrix PLA, PMMA was finally used to ensure a good adhesion between the PBA particles and the matrix. To this end, we explored successively the PLA blend, using PBA nanocomposites and the PBA/PMMA core-shell nanoparticles as reinforcing agents, with improved impact resistance, showing that core-shell particles allowed increasing of 3 times of impact strength of the PLA with a minimum amount of loss (~25%) in Young?s modulus and tensile strength. The properties of the synthetic particles and the properties of PLA blends have been demonstrated by various characterization techniques (DLS, FTIR, TGA, TEM, SEM, 1H-NMR, DSC, DMTA ...)

Poly (acide lactique)

Laponite

Polymérisation en mini-émulsion

Poly (méthacrylate de méthyle)

Nanoparticules coeur-écorce

Poly(lactic acid)

Laponite

Poly(butyl acrylate)

Mechanical properties

Miniemulsion polymerization

Poly(methyl methacrylate)

Core-shell nanoparticles

620.192

668.9

Organopolymérisations du méthacrylate de méthyle induites par les carbène N-hétérocycliques et par des paires de Lewis organiques / Organopolymerizations of methyl methacrylate directly induced by N-heterocyclic carbenes and by metal-free Lewis pairs

Nzahou Ottou, Winnie

18 December 2014

Deux carbènes N-hétérocycliques (NHCs) de type imidazol-2-ylidène ont été étudiés en tant qu’amorceurs organiques pour la polymérisation directe de monomères vinyliques de type (méth)acrylates d’alkyle, principalement le méthacrylate de méthyle(MMA), en l’absence tout autre activateur. Une différence de réactivité a été mise en évidence en fonction des substituants du carbène et de la nature du substrat. Des études théoriques ont permis de rationaliser les résultats expérimentaux par l’influence des effets électroniques et stériques intervenant au cours des réactions mises en jeu. Un NHC en particulier a été ensuite utilisé comme véritable catalyseur de la polymérisation du MMA en présence d’alcools comme amorceurs. En utilisant des macroamorceurs hydroxylés de type poly(oxyde d’éthylène), des copolymères amphiphiles ontété ainsi synthétisés. Des études théoriques ont encore une fois permis d’identifier les mécanismes réactionnels de cette polymérisation. Enfin, des paires de Lewis composées d’un acide à base de silicium et d’une base de typeNHC ou phosphine trialkyle(aryle) ont été ensuite utilisées comme système d’activation de polymérisation du MMA. Ce type de polymérisation est basé sur une activation duale du monomère par effet coopératif de la base et de l’acide. / The reactivity of imidazol-ylidene N-heterocyclic carbenes (NHCs) as direct initiators for the polymerization of miscellaneous (meth)acrylic monomers, mainly methylmethacrylate (MMA), has been screened in the absence of any other co-activator.Different reactivities have been observed according to the structure of the NHC and thenature of the substrate. Computational studies allowed rationalizing steric and electroniceffects involved in these reactions.The use of a peculiar NHCs as catalyst for the polymerization of MMA using alcohols as initiators has then been investigated. This simple and efficient method also allows achieving amphiphilic block copolymers by using hydroxylated poly(ethylene oxide)s asmacro-initiators. Combined computational and experimental investigations have provided insights into the mechanism of polymerization.Various Lewis pairs including a silicon-based compound as acid and NHC or a trialkyl(aryl)phosphine as base, have been investigated to trigger an efficient polymerization of MMA.In this case, the polymerization is expected to proceed via a cooperative/dual activation mechanism.

Polymérisation organique

Catalyse

Méthacrylate de méthyle

Carbènes N-hétérocycliques

Paires de Lewis

Phosphines

Composés silylés

Activation duale

Metal-free polymerization

Catalysis

Methyl methacrylate

N-heterocyclic carbenes

Lewis pairs

Phosphines

Silicon derivatives

Dual activation

Kinetik von Atom-Transfer Radikalischen Polymerisationen bis zu hohen Drücken / Kinetics of Atom-Transfer Radical Polymerization up to High Pressure

Morick, Joachim

26 September 2012

No description available.

540 Chemie

SW 000

SGC 000

Chemistry

ATRP

Kinetik

Methylmethacrylat

Styrol

Butylacrylat

Atom-Transfer Radical Polymerization

ATRP

kinetics

methyl methacrylate

styrene

butyl acrylate

35.13

35.80

Síntese e caracterização de materiais híbridos siloxano-PMMA dopados com íons Eu(III)

Santos, Simei Tarse Sobrinho

28 March 2014

In this work siloxane-polymethyl methacrylate (PMMA) hybrid materials were synthesized and doped with Eu (III) from solid europium chloride, solid europium (III) nitrate, europium chloride (III) in alcoholic solution and 3-aminopyrazine-2-carboxylate of lanthanum and europium complex. The hybrid was prepared from methyl methacrylate (MMA) and 3-methacryloxy-propyl-trimethoxysilane (MPTS), using benzoyl peroxide (BPO) as polymerization initiator. The use of the sol-gel method by acid catalysis allowed to obtain pure solid materials and doped with europium different sources with amorphous characteristics, as evidenced by the X-ray diffraction powderdata. The insertion of the europium complex in the polycrystalline matrix did not changethe structural characteristics of the samples. It was observed that the materials doped with europium in solution, showed greater adsorbed amounts of solvents and structural features that changethe spectroscopic properties. The samples containing solid salts showed similar structural features. It was observed that the average life time of the radioactive emissions increase with the heat treatment, indicating that the temperature reduces the number of suppressor luminescence groups in the coordinationenvironment oflanthanides ion and the character non monoexponentialof the decay is indicative of the presence different coordination environments. In the 29Si NMR measurementsfor samples containing alcoholic solution of europium chloride are observed monomer (RSi(OSi)(OH)2), diimeric(R-Si(OSi)2(OH)) and fully condensed (RSi(OSi)3)species,having a polycondensationdegree up to 78% . The materialsdoped with europium complex show strong luminescence, except tosamples treated at 200 ° C, which is indicative of thermal degradation of the coordination complex. It was observed that presence of solvent changedthermal stability, different heat treatments and europium sources exerted strong influence on the coordination environment of the Eu (III) ions in the organic -inorganic hybrid materials. / Neste trabalho materiais híbridos Siloxano-Polimetacrilato de metila (PMMA) foram sintetizados e dopados com íons Eu(III) provenientes de cloreto e nitrato de európio (III) sólidos, cloreto de európio (III) em solução alcoólica e complexo 3-aminopirazina-2-Carboxílato de lantânio e európio. O hibrido foi preparado a partir dometacrilato de metila (MMA) e do 3-metacriloxi-propil-trimetoxisilano (MPTS), utilizando-se como agente inicializador de polimerização o peróxido de benzoila (BPO). A utilização dametodologia de síntese sol-gel por catálise ácida possibilitou a obtenção de materiais sólidos puros e dopados com diferentes fontes de európio, com características amorfas, como ficou evidente pelos dados de difração de raios X de pó. A inserção de complexo de európiopolicristalino na matriz não alterou as características estruturais da amostra.Observou-se que os materiais que foram dopados com európio em solução, apresentaram maior quantidade de solventes adsorvidos e características estruturais que alteraram as suas propriedades espectroscópicas. As amostras dopadas com sais sólidos apresentaram características estruturais semelhantes. Observou-se que os tempos de vida médios das emissões radiativas aumentam com o tratamento térmico, o que indica que o tratamentoreduz o número de grupos supressores de luminescência no ambiente de coordenação do íon lantanídeo e o caráter não monoexponencial do decaimento é indicativo da presença de diferentes ambientes de coordenação. Pelo RMN do 29Si para as amostras dopadas com solução alcoólica de cloreto de európio são observadas espécies monoméricas(R-Si(OSi)(OH)2), diméricas(R-Si(OSi)2(OH)) e totalmente condensadas(R-Si(OSi)3) com um grau de policondensação de até 78%. Os materiais dopados com o complexo apresentam forte luminescência, exceto as amostras tratadas a 200°C, o que é indicativo da degradação térmica do complexo de coordenação. Observou-se que a presença de solvente alterou a estabilidade térmica das amostras, e que a diferentes tratamentos térmicos e a dopagem com diferentes fontes de európio influenciaram sensivelmente o ambiente de coordenação dos íons Eu(III) nos materiais híbridos orgânico-inorgânicos.

Metais de terras-raras

Metil metacrilato

Ions

Luminescência

Raios X - Difração

Polimetilmetacrilato

Materiais híbridos

Lantanídeos

Difration

Ions

Luminescence

Methyl methacrylate

Polymethylmethacrylate

Rare earth metals

X-rays

Lanthanides

Microporous Membranes Derived using Crystallisation Induced Phase Separation in PVDF/PMMA (Polyvinylidene Fluoride/ Polymethyl Methacrylate) Blends in Presence of Multiwalled Carbon Nanotubes

Sharma, Maya

January 2017

Segmental chain dynamics in polymer blends is a very important topic, not only from a fundamental point of view but also from technological applications. Because of the difficulties in the commercialization of new polymers, industries have turned increasingly towards blending of polymers to optimise their end use (mechanical, rheological) properties. The design of tailor-made materials would be enormously facilitated by the understanding of the blending phenomena at a molecular level. The key question to address is to understand the dynamics of each component of the blend modified by blending? The thesis has systematically studied the effect of multiwalled carbon nanotubes on the chain dynamics, demixing temperature, structural properties and evolution of morphology in a classical miscible polymer blend system (PVDF/PMMA). The thesis comprises of six chapters, Chapter 1 is an introductory chapter that outlines the fundamentals of polymer blends, crystallisation in polymer blends and the basics of dielectric spectroscopy. As one of the rationales of this work is to systematic study whether phase separated in these blends can be used as a tool to develop membrane for water purification. This chapter also gives an overview of the reported studies of ultrafiltration membrane fabrication, factors affecting membrane morphology and flux. In Chapter 2, the materials and methodology used to carry out experiments and the experimental procedures are discussed. Chapter 3 discusses the effect of concentration of PMMA and amine functionalized multiwalled carbon nanotubes (MWNTs) on the crystallisation induced phase separation using FTIR, XRD, POM and shear rheology. Electron microscopy and selective etching confirmed the localisation of MWNTs in the PVDF phase of the blends. Blends with MWNTs facilitated in heterogeneous nucleation manifesting in an increase in crystallisation temperature. The crystallisation induced phase separation in PVDF/PMMA blends was observed to influence the interconnected network of MWNTs in the blends. Chapter 4 discuss the effect of concentration of PMMA and MWNTs on the miscibility and the segmental relaxations was probed in situ by DSC and dielectric relaxation spectroscopy (DRS). The dynamic heterogeneity in the blends as manifested by the presence of an extra relaxation at a higher frequency at or below the crystallisation induced phase separation temperature was also discussed. We found that PVDF/PMMA blend (PVDF ≥ 80 wt%) exhibits three distinct relaxations; αc corresponding to crystalline PVDF, αβ segmental relaxation of PMMA and αm of amorphous miscibility whereas all relaxations overlap and constitute a single broad relaxation in PVDF/PMMA blend (PVDF ≤ 70 wt%). This confirms that there is a certain composition width in this blend wherein three distinct relaxations can be traced. This could due to many reasons like the width of crystal-amorphous interphase in the crystal lamellae, crystal size and morphology is strongly contingent on the concentration of PMMA. Relaxations are not very distinct in presence of MWNTs due to defective spherulites that shift the relaxations towards a higher frequency. Chapter 5 has attempted to tune the microporous morphology of PVDF membranes using crystallisation induced phase separation in PVDF/PMMA blends. As PVDF/PMMA is a melt-miscible blend, the samples were allowed to crystallise and the amorphous PMMA phase, which isolates in the interlamellar or inter-spherulitic regions in the blends, was etched out to generate microporous structures. The pore sizes can be tuned by varying the PMMA concentration in the blends. We observed that 60/40 PVDF/PMMA blends showed larger pores as compared to 90/10 PVDF/PMMA blends. We further modified PVDF membranes by sputtering silver on the surface. The bacterial cell viability was distinctly suppressed (99 %) in silver sputtered membranes. The ICP analysis suggests that slow Ag+ ions release from the sputtered membrane surface assisted in developing antibacterial surface. Our findings open new avenues in designing water filtration membranes and also help in understanding the crystallisation kinetics for tuning pore size in membranes. Chapter 6 summarises the important results of this work. MWNTs act as hetero nucleating agent and specifically interact with PVDF thereby influences the dynamics of PVDF chains. MWNTs can also restrict the amorphous segmental mobility and can influence the intermolecular cooperativity and coupling. The crystallisation induced phase separation in various blends can result in various crystalline morphologies depending on the PVDF concentration. By selectively etching PMMA from the phase-separated blends, microporous morphology can be generated

Segmental Chain Dynamics

Micro Porous Membrane Crystallization

Dielectric Relaxations

Debye Relaxations

Non-Debye Relaxation - Models

Polymer Blends

PVDF/PMMA Blends

Multi-walled Carbon Nanotubes (MWNTs)

PVDF Membranes

Graphene Oxide

Multiwalled Carbon Nanotubes

PMMA

Nanoscience

Development and kinetic modeling of resins for advanced thermoplastic polymer composite materials / Développement et modélisation cinétique de résines pour des matériaux composites avancés à base de polymères thermoplastiques

Zoller, Alexander

20 October 2016

L’objectif de cette thèse est de développer un matériau à base de polyméthacrylate de méthyle (PMMA) amorcé par une réaction redox à température ambiante pour produire des composites thermoplastiques. Plus particulièrement, notre travail a consisté à étudier le mécanisme d’amorçage afin d’améliorer la formulation de la résine en terme de cinétique de polymérisation. Afin d’atteindre cet objectif, les paramètres d’Arrhenius de la décomposition d’amorceur ont été déterminés et intégrés dans un modèle de simulation numérique décrivant la polymérisation du MMA à température ambiante développé à l’aide du logiciel PREDICI. Basé sur cette simulation, des différents paramètres ont été testés dans le but de diminuer le temps de polymérisation. En complément de la détermination des paramètres du système d’amorçage, une étude de copolymérisation avec un grand nombre de comonomères a été effectuée. Cette étude a conduit à l’identification d’un monomère permettant d’accélérer la vitesse de polymérisation : le méthacrylate d’acetoacetoxyethyle (AAEMA). Une étude cinétique de ce monomère a été réalisée avec l’identification du coefficient de la vitesse de propagation kp ainsi que les paramètres de copolymérisation avec MMA, rMMA et rAAEMA. Les paramètres cinétiques, qui ont été déterminés expérimentalement, ont été vérifiés par une simulation numérique de copolymérisation de MMA et AAEMA. / Composite materials are used for decades as high-performance materials in industry. Up to date these materials were based on non-recyclable thermoset polymers. Nowadays, environmental and economical restrictions enhance the development of recyclable composite materials. For answering that demand, research focuses on the development of recyclable thermoplastic polymer composites. Within this context, the work of this thesis focuses on the development of a material based on a poly(methyl methacrylate) (PMMA) resin initiated with a redox initiation system at room temperature in order to prepare thermoplastic composites. More precisely, our work consisted of studying this initiation system and to improve the kinetics of the resin formulation. For that purpose, the Arrhenius parameters of the initiator decomposition reaction were determined and implemented in a simulation model that describes the polymerization of MMA at room temperature. Based on the simulation carried out on the software PREDICI, several conditions were tested aiming in the decrease of the polymerization times. Besides investigating parameters concerning the initiation system, a copolymerization study, using a large variety of comonomers, was conducted. This study led to the identification of an interesting fast polymerizing methacrylate: acetoacetoxyethyl methacrylate (AAEMA). The kinetics of this monomer were studied including the determination of the propagation rate coefficient kp and the copolymerization parameters with MMA rMMA and rAAEMA. The determined kinetic parameters were finally verified by a copolymerization simulation of MMA and AAEMA.

Polymérisation radicalaire

Méthacrylate de méthyle

Polymérisation à température ambiante

Amorçage par BPO/amine

Modélisation cinétique

Predici

Radical polymerization

Methyl methacrylate

Room-Temperature polymerization

BPO/amine initiation

Kinetic modeling

Predici

Determination of reaction coefficients

Élaboration de nanocapsules par polymérisation radicalaire contrôlée à partir d’un tensioactif réactif dérivé du dextrane / Nanocapsules elaboration via controlled radical polymerization using a dextran derivative as reactive surfactant

Forero Ramirez, Laura Marcela

13 June 2016

Des nanocapsules (NCs) biocompatibles destinées à l’administration intraveineuse d’agents anticancéreux hydrophobes ont été élaborées par polymérisation RAFT en miniémulsion, confinée à l’interface liquide/liquide. La polymérisation RAFT a été utilisée pour contrôler la croissance des greffons polymères constituant l’écorce des NCs à partir d’un transurf (macroagent RAFT et tensioactif) multifonctionnel dérivé du dextrane (DexN3-τCTAγ). Des NCs constituées d’une écorce en polymère hydrophobe (poly(méthacrylate de méthyle)) entourant un cœur liquide huileux (Miglyol®810) et recouvertes d’une couronne hydrophile polysaccharide (dextrane) ont ainsi été obtenues. Ces nano-objets ont été caractérisés en termes de taille, de recouvrement en dextrane (quantité de polysaccharide, épaisseur et stabilité), de stabilité colloïdale et de morphologie. La fabrication de NCs à écorce polymère pH-sensible a également été abordée. Enfin, le potentiel biomédical de ces nano-objets a été évalué grâce à différentes études : i) encapsulation et libération d’une substance active modèle, ii) cytotoxicité de NCs, iii) interactions des NCs avec les protéines plasmatiques et iv) fonctionnalisation de la surface des NCs par chimie « click ». / Biocompatible nanocapsules (NCs) for intravenous administration of hydrophobic anticancer agents were produced by interfacial Reversible Addition-Fragmentation chain Transfer (RAFT) miniemulsion polymerization. Controlled growth of polymeric grafts constituting NCs shell was obtained using a multi-reactive dextran-based transurf called DexN3-τCTAγ (acting both as macroRAFT agent and surfactant) to mediate RAFT polymerization at the liquid/liquid interface. NCs composed of a hydrophobic polymer shell (poly(methyl methacrylate)), an oily liquid core (Miglyol®810) and a hydrophilic polysaccharide coating (dextran) were obtained. These nano-objects were characterized in terms of size, dextran coverage (density, thickness and stability), colloidal stability and morphology. Synthesis of NCs with a pH-sensitive polymer shell was approached. Finally, potential of these nano-objects for biomedical applications was evaluated by studies on different aspects: i) encapsulation and delivery of a model active substance, ii) NCs cytotoxicity, iii) NCs interactions with plasma proteins, and iv) surface functionalization of NCs by “click chemistry”.

Nanocapsules

Dextrane

Transurf

Miniémulsion

Poly(méthacrylate de méthyle)

Encapsulation

Nanocapsules

Dextran

Transurf

Miniemulsion

Poly(methyl methacrylate)

Encapsulation

668.92