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Contribution à la modélisation thermodynamique d'un atelier de purification d'acide acrylique / Contribution to the thermodynamic modeling of purification unit of acrylic acidAttia Ben Amor, Afef 12 December 2013 (has links)
Ce travail porte sur la contribution à la modélisation thermodynamique d'un atelier de purification d'acide acrylique. Après l'identification des principaux produits intervenant dans l'étape de purification et la collecte de leurs propriétés thermodynamiques disponibles dans la littérature, nous avons effectué une série de mesures expérimentales pour un ensemble de mélanges contenant des acides carboxyliques (en particulier : diagrammes d'équilibres liquide-liquide et équilibres liquide-vapeur, enthalpies d'excès et volumes d'excès). L'ensemble des données (nos mesures et les valeurs de la littérature) a été exploité selon deux approches de modélisation des équilibres liquide-vapeur : une approche symétrique (φ-φ) appliquée aux équations d'état de Peng-Robinson (P-R) et de PC-SAFT et une approche dissymétrique (γ-φ) appliquée aux modèles de coefficients d'activité en phase liquide NRTL, UNIQUAC et Van Laar associés à diverses équations d'état en phase vapeur (gaz parfait, Viriel, Hayden et O'Connell et Nothnagel). Nous avons finalement retenu le modèle UNIQUAC associé à la corrélation de Hayden et O'Connell en phase vapeur. Des nouveaux paramètres d'interaction ont été déterminés et conduisent à des résultats homogènes et satisfaisants en comparaison avec nos mesures expérimentales et aux données de la littérature. Ils permettent également de décrire convenablement les diagrammes d'équilibres liquide-vapeur et les volatilités relatives des mélanges étudiés / This work focuses on the contribution in the thermodynamic modeling of an acrylic acid purification unit. After identifying the main products involved in the purification step and collecting their thermodynamic properties available in the literature, we conducted a series of experimental measurements for a range of mixtures containing carboxylic acids(mainly liquid-liquid equilibrium and vapor-liquid equilibrium diagrams, excess enthalpies and excess volumes).The data set-our measurements and literature values-was used according to two approaches for modeling vapor-liquid equilibrium: a symmetric approach(φ-φ) applied to the equations of state Peng-Robinson (P-R) and PC-SAFT and an asymmetrical approach (γ-φ) applied to the models of activity coefficients in the liquid phase NRTL, UNIQUAC and Van Laar associated with various equations of state in the vapor phase(ideal gas, Viriel, Hayden O'Connell and Nothnagel). We have finally chosen the UNIQUAC thermodynamic model associated with the correlation of Hayden O'Connell in vapor phase. New binary parameters were determined and led to consistent and satisfactory results in comparison with our experimental measurements and literature data. These parameters can also be used to adequately describe the diagrams of vapor-liquid equilibrium and the relative volatilities of the mixtures studied
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Estudo da dinâmica molecular em copolímeros em bloco compostos de poli(metacrilato de metila), poli(ácido acrílico) e poli(acrilato de chumbo) por técnicas de ressonância magnética nuclear e análise térmica / Study of Molecular Dynamics in Copolymers of Poly (methyl methacrylate), poly (acrylic acid) and Poly (acrylate lead) by nuclear magnetic resonance and thermal analysesSilva, André Luis Bonfim Bathista e 07 July 2009 (has links)
Esta tese envolveu o estudo da dinâmica molecular em copolímeros em bloco compostos de poli(metacrilato de metila) (PMMA), poli(ácido acrílico) (PAA) e Poli(acrilato de chumbo) (PAPb) por técnicas de Ressonância Magnética Nuclear e de análise térmica (DSC e DMTA). Estes copolímeros em bloco foram sintetizados visando a obtenção de compostos para serem utilizados, tanto como lentes oftálmicas com maiores índices de refração, como materiais dedicados à proteção radiológica, sendo estas duas propriedades de emprego individual ou integrado. Para o estudo destes materiais, as amostras foram confeccionadas com várias composições, incluindo aquelas nas formas puras contendo apenas um bloco, resultantes da combinação de dois blocos, e as triblocos, com diferentes quantidades relativas de PAPb, variando de 1 a 40%. Para o caso do PMMA, a dinâmica molecular é bem conhecida, sendo caracterizada por uma relaxação β, que envolve mais especificamente movimentos de seus ramos laterais e que ocorre dentro de um amplo intervalo de temperatura centrado em torno da ambiente, e pela transição vítrea, que envolve, predominantemente, movimentos da cadeia principal que ocorrem para temperaturas em torno de 100oC. Devido à extensão destes dois eventos em grandes intervalos de temperatura, eles acabam se superpondo já em temperaturas abaixo de 100oC. O fato da relaxação β ocorrer para o PMMA em torno da temperatura ambiente, confere-lhe uma de suas características mais importantes, não ser quebradiço. Porém, devido à presença do grupo hidroxila no PAA, que permite a ocorrência de ligações de hidrogênio entre os diferentes ramos laterais, a relaxação β é suprimida neste material, tornando-o quebradiço e não adequado para as aplicações desejadas. No caso do copolímero tribloco, espera-se que o PAPb também possa interferir na característica mecânica final do material, em função de sua participação na dinâmica molecular do copolímero. Para este estudo foram preparadas várias amostras com diferentes quantidades relativas de PMMA, PAA e PAPb, de modo entendermos a dinâmica molecular destes materiais, individual e coletivamente, afim de selecionar os mais indicados para as aplicações tecnológicas almejadas. Para o estudo destas amostras, utilizamos tanto técnicas de análise térmica (DSC e DMTA), que fornecem, de forma relativamente rápida, dados importantes sobre a dinâmica macroscópica, quanto métodos básicos e avançados de RMN no estado sólido, que propiciam informações mais detalhadas sobre a dinâmica molecular. Estes estudos indicaram que a presença do PAA, obrigatória na rota de síntese utilizada para a inserção do PAPb, é um elemento indesejável no produto final, pois ele sempre atua na supressão da relaxação β. Adicionalmente, os dados obtidos indicaram que o PAPb, em grandes quantidades, também age na supressão desta relaxação. Embora a proposição destes novos materiais para a área oftálmica não ser muito adequada, já que a quantidade de PAPb necessária para a obtenção de amostras com bons índices de refração deve ser grande (bem acima de 5%, quando elas tornam-se quebradiças), as amostras com pequenos conteúdos de PAPb (até 5%) permitiram uma redução de até 50% dos raios-x incidentes. Finalmente, os estudos realizados por técnicas que observam detalhes da dinâmica molecular, tanto em níveis macroscópicos (DSC e DMTA), quanto moleculares (RMN), ofereceram excelentes informações básicas tanto sobre a mobilidade dos diferentes ramos que compõem os copolímeros em bloco, quanto a interação/miscibilidade entre os diferentes blocos, que afeta também a dinâmica global do sistema. / This thesis involved the study of molecular dynamics in triblock copolymers consisting of poly (methyl methacrylate) (PMMA), poly (acrylic acid) (PAA) and Poly (lead acrylate) (PAPb) by solid-state Nuclear Magnetic Resonance (NMR) and thermal analyses (DSC and DMTA). These block copolymers were synthesized in order to obtain materials not only presenting higher refractive index but also offering good radiological protection, which are useful for individual and combined applications. For the study of these materials, the samples were prepared with various compositions, including those in pure form containing only a block, resulting from the combination of two blocks, and the triblock with different relative amounts of PAPb, ranging from 1 to 40%. In the case of PMMA, the molecular dynamics is well known, characterized by a β relaxation, which involves more specifically the ester side-group dynamics occurring within a broad temperature range centered around the room temperature, and the glass transition, predominantly involving the main chain dynamics that occur for temperatures around 100oC. Due to large extension of these two dynamical events in wide temperature ranges, they merge at temperatures below 100oC. The fact that the β relaxation occurs for the PMMA around the room temperature, confers to it one of its most important features, toughness. However, due to the presence of the hydroxyl group in PAA, which allows the occurrence of hydrogen links between different branches, the β relaxation in this material is strongly suppressed, making it brittle and not suitable for the desired applications. In the case of the triblock copolymer, it is also expected that PAPb may also interfere with the mechanical properties of the final material due to its involvement in the full molecular dynamics of the copolymer. For this study, several samples were prepared with different relative amounts of PMMA, PAA and PAPb, in order to understand the molecular dynamics of these materials, individually and collectively, and select the most suitable ones for the desired technological applications. To characterize and study these samples, we employed thermal analyses (DSC and DMTA), which give quick and important data on the macroscopic dynamics, and basic and advanced solid-state NMR methods, which provide more detailed information about he molecular dynamics. These studies indicated that PAA, necessary along the synthesis route used for the insertion of PAPb in the triblock copolymers, is an undesirable element in the final product, because it is always acting on the suppression of β relaxation. Although the proposition of these new materials for the ophthalmic area is not very appropriate, since the amount of PAPb necessary to obtain good refraction indexes would be necessarily large (over 5%, when they become brittle), the samples with small amounts of PAPb (up to 5%, when they present good mechanical properties) allowed a significant reduction of about 50% of the incident x-rays. Finally, using solid-state NMR methods, including modern Exchange experiments and thermal analyses (DSC and DMTA), it was possible to understand in detail the individual and cooperative motions of the main chain and side groups. The most import result obtained indicate that, despite being important inserting PAPB and PAA in the block copolymer for improving the desired optical and x-ray shielding properties, the presence of these blocks tend to suppress the β relaxation, reducing thesample mechanical properties.
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Strukturiranje polimernih mreža na osnovu akrilamida i akrilne kiseline / Structuring of polymer networks based on acrylamide and acrylic acidErceg Tamara 28 September 2019 (has links)
<p style="text-align: justify;">U ovom radu sintetisani su hidrogelovi na osnovu akrilamida i akrilne kiseline, radikalnom polimerizacijom, primenom konvencionalne i mikrotalasne metode sinteze. Varirani su početni odnosi monomera i udeo umreživača, u cilju ispitivanja uticaja sastava reakcione smeše na svojstva dobijenih hidrogelova. Optimizovani su uslovi sinteze u mikrotalasnom polju kao brže, jednostavnije i ekonomičnije metode. U cilju uspostavljanja korelacije između mehanizma sinteze, strukture i svojstava dobijenih hidrogelova, primenom relevantnih metoda karakterizacije, upoređena su apsorpciona, reološka, toplotna i strukturna svojstva hidrogelova dobijenih dvema metodama. Ustanovljeno je da se mikrotalasnom metodom sinteze na brži i jednostavniji način uz smanjen utrošak vremena i energije dobijaju hidrogelovi konkurentni onima koji se dobijaju konvencionalnim zagrevanjem u vodenom rastvoru. Drugi deo doktorata obuhvata sintezu hidrofilnih polimernih mreža na osnovu natrijum karboksimetilceluloze (NaCMC) i karboksilnih kiselina, od kojih je jedna serija sintetisana prožimanjem linearnim kopolimerima akrilamida i akrilne kiseline u cilju povećanja potencijala primene u floku-lacione svrhe. Rezultati ispitivanja svojstava bubrenja, strukturnih toplotnih i flokulacionih svojstava pokazali su međusobno slaganje. Dobijeni rezultati pokazali su da od primenjenih karboksilnih kiselina, linunska kiselina u udelu od 15% u odnosu na masu NaCMC daje hidrogelove najboljih svojstava. Kombinacijom ove mreže sa kopolimerom akrilamida i akrilne kiseline u masenom odnosu 10/90, stvara se teorijska platforma za dobijanja flokulanta koji bi mogao da pokaže visoku efikasnost u prečišćavanju vode u kojoj dominiraju pozitivno naelektrisane čestice, pravilnim izborom parametara flokulacije.</p> / <p>In this paper, hydrogels based on acrylamide and acrylic acid were synthesized using conventional and microwave synthetic methods via free-radical polymerization. The initial monomers ratio and amount of crosslinking agent were varied in order to investigate the effect of the composition of the reaction mixture on the properties of the obtained hydrogels. The conditions of synthesis in the microwave field as faster simpler and more economical method have been optimized. In order to establish a correlation between the mechanism of synthesis, structure and properties of the obtained hydrogels using the relevant methods of characterization, the absorption, rheological, thermal and structural properties of the hydrogels obtained by the two methods were compared. It has been found that the microwave synthesis is a faster and simpler method, which enables reduced consumption of time and energy and produces hydrogels competitive to those ones obtained by conventional heating in aqueous solution. The second part of the thesis includes the synthesis of hydrophilic polymer networks based on sodium carboxymethylcellulose (NaCMC) and carboxylic acids, whereby one series is synthesized by interpenetration of the network using the linear acrylamide and acrylic acid copolymers in order to increase the potential application of hydrogels for flocculation purposes. The results of measurements of swelling, structural, thermal and flocculation properites have shown mutual agreement. The obtained results have shown that among applied carboxylic acids, citric acid in the amount of 15% per mass of NaCMC, has given the hydrogels with the best properties. The Combination of this network with a copolymer of acrylamide and acrylic acid in a mass ratio of 10/90 has created a theoretical platform for the production of flocculant which could show high efficacy in purifying of water dominated by positively charged particles.</p>
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Radical Polymerization Kinetics in Systems with Transfer Reactions Studied by Pulsed-Laser-Polymerization and Online EPR-Detection / Studien zur Kinetik radikalischer Polymerisationen mit zwei Sorten von Radikalspezies durch Pulslaser Polymerisation mit Online EPR-SpektroskopieBarth, Johannes 25 October 2011 (has links)
No description available.
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Tailored Silica Polymer Composites and ABA Type Copolymers: Polymerization Kinetics, Structural Design, and Mechanical Properties / Maßgeschneiderte Silica Polymer-Komposite und ABA-Blockcopolymere: Polymerisationskinetik, Strukturelles Design und Mechanische EigenschaftenRotzoll, Robert 18 July 2011 (has links)
No description available.
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Synthesis of polyelectrolyte brushes on silica-based substrates through surface-initiated polymerization : brush characterization and responsiveness to variation in pH and ionic strengthBorozenko, Olga 12 1900 (has links)
No description available.
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Estudo da dinâmica molecular em copolímeros em bloco compostos de poli(metacrilato de metila), poli(ácido acrílico) e poli(acrilato de chumbo) por técnicas de ressonância magnética nuclear e análise térmica / Study of Molecular Dynamics in Copolymers of Poly (methyl methacrylate), poly (acrylic acid) and Poly (acrylate lead) by nuclear magnetic resonance and thermal analysesAndré Luis Bonfim Bathista e Silva 07 July 2009 (has links)
Esta tese envolveu o estudo da dinâmica molecular em copolímeros em bloco compostos de poli(metacrilato de metila) (PMMA), poli(ácido acrílico) (PAA) e Poli(acrilato de chumbo) (PAPb) por técnicas de Ressonância Magnética Nuclear e de análise térmica (DSC e DMTA). Estes copolímeros em bloco foram sintetizados visando a obtenção de compostos para serem utilizados, tanto como lentes oftálmicas com maiores índices de refração, como materiais dedicados à proteção radiológica, sendo estas duas propriedades de emprego individual ou integrado. Para o estudo destes materiais, as amostras foram confeccionadas com várias composições, incluindo aquelas nas formas puras contendo apenas um bloco, resultantes da combinação de dois blocos, e as triblocos, com diferentes quantidades relativas de PAPb, variando de 1 a 40%. Para o caso do PMMA, a dinâmica molecular é bem conhecida, sendo caracterizada por uma relaxação β, que envolve mais especificamente movimentos de seus ramos laterais e que ocorre dentro de um amplo intervalo de temperatura centrado em torno da ambiente, e pela transição vítrea, que envolve, predominantemente, movimentos da cadeia principal que ocorrem para temperaturas em torno de 100oC. Devido à extensão destes dois eventos em grandes intervalos de temperatura, eles acabam se superpondo já em temperaturas abaixo de 100oC. O fato da relaxação β ocorrer para o PMMA em torno da temperatura ambiente, confere-lhe uma de suas características mais importantes, não ser quebradiço. Porém, devido à presença do grupo hidroxila no PAA, que permite a ocorrência de ligações de hidrogênio entre os diferentes ramos laterais, a relaxação β é suprimida neste material, tornando-o quebradiço e não adequado para as aplicações desejadas. No caso do copolímero tribloco, espera-se que o PAPb também possa interferir na característica mecânica final do material, em função de sua participação na dinâmica molecular do copolímero. Para este estudo foram preparadas várias amostras com diferentes quantidades relativas de PMMA, PAA e PAPb, de modo entendermos a dinâmica molecular destes materiais, individual e coletivamente, afim de selecionar os mais indicados para as aplicações tecnológicas almejadas. Para o estudo destas amostras, utilizamos tanto técnicas de análise térmica (DSC e DMTA), que fornecem, de forma relativamente rápida, dados importantes sobre a dinâmica macroscópica, quanto métodos básicos e avançados de RMN no estado sólido, que propiciam informações mais detalhadas sobre a dinâmica molecular. Estes estudos indicaram que a presença do PAA, obrigatória na rota de síntese utilizada para a inserção do PAPb, é um elemento indesejável no produto final, pois ele sempre atua na supressão da relaxação β. Adicionalmente, os dados obtidos indicaram que o PAPb, em grandes quantidades, também age na supressão desta relaxação. Embora a proposição destes novos materiais para a área oftálmica não ser muito adequada, já que a quantidade de PAPb necessária para a obtenção de amostras com bons índices de refração deve ser grande (bem acima de 5%, quando elas tornam-se quebradiças), as amostras com pequenos conteúdos de PAPb (até 5%) permitiram uma redução de até 50% dos raios-x incidentes. Finalmente, os estudos realizados por técnicas que observam detalhes da dinâmica molecular, tanto em níveis macroscópicos (DSC e DMTA), quanto moleculares (RMN), ofereceram excelentes informações básicas tanto sobre a mobilidade dos diferentes ramos que compõem os copolímeros em bloco, quanto a interação/miscibilidade entre os diferentes blocos, que afeta também a dinâmica global do sistema. / This thesis involved the study of molecular dynamics in triblock copolymers consisting of poly (methyl methacrylate) (PMMA), poly (acrylic acid) (PAA) and Poly (lead acrylate) (PAPb) by solid-state Nuclear Magnetic Resonance (NMR) and thermal analyses (DSC and DMTA). These block copolymers were synthesized in order to obtain materials not only presenting higher refractive index but also offering good radiological protection, which are useful for individual and combined applications. For the study of these materials, the samples were prepared with various compositions, including those in pure form containing only a block, resulting from the combination of two blocks, and the triblock with different relative amounts of PAPb, ranging from 1 to 40%. In the case of PMMA, the molecular dynamics is well known, characterized by a β relaxation, which involves more specifically the ester side-group dynamics occurring within a broad temperature range centered around the room temperature, and the glass transition, predominantly involving the main chain dynamics that occur for temperatures around 100oC. Due to large extension of these two dynamical events in wide temperature ranges, they merge at temperatures below 100oC. The fact that the β relaxation occurs for the PMMA around the room temperature, confers to it one of its most important features, toughness. However, due to the presence of the hydroxyl group in PAA, which allows the occurrence of hydrogen links between different branches, the β relaxation in this material is strongly suppressed, making it brittle and not suitable for the desired applications. In the case of the triblock copolymer, it is also expected that PAPb may also interfere with the mechanical properties of the final material due to its involvement in the full molecular dynamics of the copolymer. For this study, several samples were prepared with different relative amounts of PMMA, PAA and PAPb, in order to understand the molecular dynamics of these materials, individually and collectively, and select the most suitable ones for the desired technological applications. To characterize and study these samples, we employed thermal analyses (DSC and DMTA), which give quick and important data on the macroscopic dynamics, and basic and advanced solid-state NMR methods, which provide more detailed information about he molecular dynamics. These studies indicated that PAA, necessary along the synthesis route used for the insertion of PAPb in the triblock copolymers, is an undesirable element in the final product, because it is always acting on the suppression of β relaxation. Although the proposition of these new materials for the ophthalmic area is not very appropriate, since the amount of PAPb necessary to obtain good refraction indexes would be necessarily large (over 5%, when they become brittle), the samples with small amounts of PAPb (up to 5%, when they present good mechanical properties) allowed a significant reduction of about 50% of the incident x-rays. Finally, using solid-state NMR methods, including modern Exchange experiments and thermal analyses (DSC and DMTA), it was possible to understand in detail the individual and cooperative motions of the main chain and side groups. The most import result obtained indicate that, despite being important inserting PAPB and PAA in the block copolymer for improving the desired optical and x-ray shielding properties, the presence of these blocks tend to suppress the β relaxation, reducing thesample mechanical properties.
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Synthèse de latex de poly(fluorure de vinylidène) (PVDF) sans tensioactif à l’aide de la polymérisation radicalaire contrôlée de type RAFT / Synthesis of surfactant-free poly(vinylidene fluoride) (PVDF) latexes via RAFT emulsion polymerizationFuentes-Exposito, Mathieu 26 September 2019 (has links)
Les travaux réalisés portent sur la synthèse de nanoparticules de PVDF à l’aide de la polymérisation radicalaire contrôlée (PRC) par transfert de chaîne réversible par addition-fragmentation (RAFT) en émulsion. Dans un premier temps, un méthoxy poly(éthylène glycol) commercial porteur d’une fonction hydroxyle (PEG-OH) a été employé pour la stabilisation des particules de PVDF. Cette stabilisation est assurée par des réactions de transfert irréversible opérant le long des chaînes de PEG conduisant à la formation in situ d’un stabilisant de type copolymère greffé. Par la suite, un PEG modifié chimiquement à partir du PEG-OH, portant à son extrémité de chaîne une fonction xanthate (macroRAFT, PEG-X), réactive et réactivable, a été utilisé. Les expériences réalisées en présence de ce macroRAFT ont démontré une forte implication de l’extrémité xanthate dans le procédé de polymérisation en émulsion du VDF. En effet, des particules stables de l’ordre de 70 nm de diamètre sont obtenues, alors que l’utilisation de PEG-OH conduit à des tailles beaucoup plus importantes (200 nm). Cette tendance est confirmée lors de l’étude de l’impact de divers paramètres comme la masse molaire de la chaîne PEG ou encore la quantité d’amorceur. Des analyses complémentaires (tension de surface et calorimétrie différentielle à balayage) ont permis de comparer le taux d’ancrage de PEG-X et de PEG-OH. Les quantités en macroRAFT ont ensuite été augmentées dans le but d’obtenir des particules composées de copolymères à blocs. Des analyses RMN approfondies ont été menées pour identifier les espèces créées lors de la polymérisation en émulsion du VDF lorsque PEG-OH et PEG-X sont utilisés en tant que stabilisant. Par comparaison, des PEG portant des fonctions réactives de types (méth)acrylate et thiol ont également été employés comme stabilisant et leurs efficacités comparées à celles de PEG-OH et de PEG-X. Par ailleurs, d’autres architectures à base de PEG ont été évaluées en utilisant un macroRAFT difonctionnel (X-PEG-X) et un polymère greffé (PPEGA-X). Enfin, des latex de PVDF ont été synthétisés en présence de macroRAFT de type poly(acide (méth)acrylique) obtenus par polymérisation RAFT de l’acide acrylique ou méthacrylique en présence d’un trithiocarbonate ou d’un xanthate. Comme précédemment, plusieurs paramètres ont été variés comme la masse molaire des chaînes macromoléculaires, la quantité d’amorceur et la quantité de macroRAFT. Ces études ont encore une fois démontré la forte implication des extrémités RAFT dans la stabilisation des particules de PVDF / This work describes the synthesis of self-stabilized PVDF particles by combining the advantages of emulsion polymerization with those of controlled radical polymerization (CRP) using the RAFT process. First, a commercial methoxy poly(ethylene glycol) carrying a hydroxyl function (PEG-OH) was used for the stabilization of PVDF particles. The stabilization is provided by irreversible transfer reactions occurring along the PEG-OH chains leading to the formation of a grafted copolymer stabilizer in situ. This PEG-OH was then chain-end functionalized to introduce a xanthate group (macroRAFT, PEG-X). The experiments carried out in the presence of this macroRAFT demonstrated a strong implication of the xanthate chain-end in the VDF emulsion polymerization process. Indeed, particle sizes of 200 nm and 70 nm were obtained in the presence of PEG-OH and PEG-X, respectively. This trend was confirmed during the study of the impact of various parameters such as the molar mass of the PEG chain or the initiator amount. Additional analyses (surface tension measurement and differential scanning calorimetry) allowed to compare the anchoring efficiency of PEG-X and PEG-OH. The macroRAFT amount was then increased to form particles composed of block copolymer. In-depth NMR analyses were then conducted to identify the species created during the VDF emulsion polymerization process in the presence of PEG-OH and PEG-X. In comparison, PEGs carrying reactive functions such as (meth)acrylate and thiol were used as stabilizers and their efficiencies compared to those of PEG-OH and PEG-X. The macroRAFT architecture was also varied using a difunctional macroRAFT (X-PEG-X) and a grafted polymer (PPEGA-X). Finally, PVDF latexes were synthesized with poly((meth)acrylic acid) (P(M)AA) functionalized by either a trithiocarbonate or a xanthate. Like previously, several parameters were varied such as the macromolecular chain length, the initiator amount and the macroRAFT amount. Again, these studies demonstrated the strong impact of the RAFT chain-end in the stabilization of PVDF particles
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