Synthèse de copolymères à architectures complexes à base de POE utilisés en tant qu'électrolytes polymères solides pour une application dans les batteries lithium métal-polymère

Gle, David

23 March 2012

Dans le contexte d'un développement durable, les véhicules électriques apparaissent comme une solution incontournable dans le futur. Parmi les dernières évolutions sur les batteries, les systèmes constitués d'une électrode au lithium (technologie lithium métal) présente des performances remarquables en termes de densité d'énergie. L'inconvénient majeur de cette méthodologie est lié à la formation de dendrites lors de la recharge susceptibles d'occasionner des courts-circuits conduisant à l'explosion de la batterie. C'est dans cet axe que s'inscrit mon sujet de thèse dont l'objectif est de développer un électrolyte polymère solide présentant une conductivité ionique élevée (2.10-4 S.cm-1 à40°C) et une tenue mécanique suffisante (30 MPa) pour limiter les phénomènes de croissance dendritique. Pour cela, la polymérisation contrôlée par les nitroxydes (NMP) a été utilisée pour synthétiser des copolymères à blocs avec un bloc possédant des groupes d'oxyde d'éthylène –CH2-CH2-O- permettant la conduction des ions lithium et un bloc de polystyrène assurant la tenue mécanique de l'électrolyte final. Le bloc assurant la conduction ionique des architectures ainsi synthétisées sont constituées soit de POE sous forme linéaire soit de POE sous forme de peigne. / In the context of sustainable development, electric vehicles appear to be a major solution for the future. Among the lastest technologies, the Lithium Metal Polymer battery has presented very interesting performances in terms of energy density. The main drawback of this system is the formation of lithium dendrites during the refill of the battery that could cause short circuits leading to the explosion of the battery. The aim of my PhD is to develop a Solid Polymer Electrolyte showing a high ionic conductivity (2.10-4 S.cm-1 at 40°C) and a high mechanical strength (30 MPa) to prevent dendritic growth. For that purpose, Nitroxide Mediated Polymerization is used to synthesize block copolymers with a PEO moiety for ionic conduction –CH2-CH2-O- and polystyrene for mechanical strength. Different kind of architectures have been synthesized : block copolymer with linear PEO moiety or with grafted PEO moiety.

Copolymères à Blocs

Electrolyte Polymère Solide

Batterie Lithium Métal Polymère

Poe

Ps

Mapeg

Nitroxide Mediated Polymerization

Block Copolymer

Solid Polymer Electrolyte

Lithium Metal Polymer Battery - PEO

Poe

Ps

Mapeg

Reciclagem do copolímero acrilonitrila-butadieno-estireno e do poliestireno de alto impacto oriundos de rejeitos de equipamentos elétricos e eletrônicos na forma de blendas poliméricas / Recycling of copolymer acrylonitrile-butadiene-styrene and high impact polystyrene from waste electrical and electronic equipment in the form of polymer blends

Hirayama, Denise

14 August 2015

O crescimento na geração de rejeitos de equipamentos elétricos e eletrônicos (REEE), legislações mais rigorosas e o valor agregado destes materiais incentivam o desenvolvimento de tecnologias de reciclagem. Contudo, a reciclagem dos componentes poliméricos dos REEE (CP-REEE) precisa superar desafios como a degradação durante o uso e reprocessamento, a presença de diferentes aditivos nos rejeitos e a depreciação de propriedades causada pela mistura não controlada de polímeros. Assim, o objetivo deste trabalho foi desenvolver um estudo sobre a reciclagem mecânica na forma de blendas poliméricas de rejeitos do copolímero acrilonitrila-butadieno-estireno (ABS) e do poliestireno de alto impacto (HIPS), empregando agentes compatibilizantes. No desenvolvimento do trabalho foram realizadas a caracterização dos CP-REEE, análise das propriedades mecânicas, químicas, térmicas e morfológicas dos polímeros e das blendas de ABS/HIPS nas proporções de 1:3, 1:1 e 3:1 com variações na composição dos polímeros reciclados e virgens e por fim, realizado um estudo do envelhecimento foto-oxidativo acelerado de uma blenda ABS/HIPS. Os resultados mostraram que os polímeros ABS e HIPS reciclados ainda apresentam boas propriedades mecânicas e que a presença de agentes compatibilizantes provoca o aumento da tenacidade nas blendas ABS/HIPS. A incorporação de polímeros virgens nos materiais reciclados não promove ganho significativo nas propriedades mecânicas das blendas. Blendas com até 50% de ABS demonstraram ter propriedades próximas às do HIPS, enquanto as blendas com altos teores de ABS não alcançaram valores de propriedades mecânicas similares aos do ABS virgem. O comportamento das propriedades das blendas virgens e recicladas frente ao envelhecimento fotoquímico foi similar, indicando que o material reciclado apresenta grande potencial para aplicações. O estudo de blendas ABS/HIPS de CP-REEE demonstra que o controle da composição das blendas definem a sua aplicação. / The growth in waste electrical and electronic equipment (WEEE) generation, directives more stringent and the aggregate value presents in these waste are encouraging the development of recycling technologies. However, recycling of polymeric components from WEEE (PC-WEEE) must overcome challenges such as degradation during use and reprocessing, the presence of various additives in the waste and the depreciation of properties caused by uncontrolled polymers mixture. The aim of this work was to develop a study of the mechanical recycling in the form blends with of polymeric waste of acrylonitrile-butadiene-styrene copolymer blends (ABS) and high impact polystyrene (HIPS) using compatibilizers. During the study was carried out the characterization of the PCWEEE and mechanical, chemical, thermal and morphological analysis of the polymers and the ABS / HIPS blends in proportions of 1:3, 1:1 and 3:1 with recycled and virgin polymers, as well as a study of the accelerated photo-oxidative aging of the ABS/HIPS blends. The results showed that ABS and HIPS recycled polymers still have good mechanical properties and the presence of compatibilization agents leads to increased toughness in ABS/HIPS blends. The incorporation of virgin polymers in recycled materials does not promote significant gain in the mechanical properties of the blends. Blends with up to 50% ABS have demonstrated to be closer to the HIPS, while blends with high content of ABS did not reach values of mechanical properties similar to the virgin ABS. The mechanical properties of virgin and recycled blends during the photochemical aging were similar, indicating that the recycled material has great potential for applications. The study of ABS/HIPS blends from PC-WEEE demonstrated that control of the blend composition establish their applications.

High impact polystyrene (HIPS)

Poliestireno de alto impacto (HIPS)

Reciclagem e compatibilizante

Recycling and compatibilizer

Copolymères à blocs « rigide-rigide » pour les cellules photovoltaïques organiques. / Rod-Rod block copolymers for organic photovoltaic cells

Medlej, Hussein

07 December 2011

Les performances des cellules photovoltaïques organiques de type hétérojonction en volume sont entre autres influencées par les propriétés opto-électroniques du polymère semiconducteur donneur d’électrons. L’objectif de cette thèse était de développer de nouveaux polymères π-conjugués pour permettre une meilleure exploitation du spectre solaire et donc améliorer la photogénération des charges. Pour cela, plusieurs dérivés de polythiophènes comportant des substituants aromatiques phényles ont été synthétisés par la méthode de GRIM, à noter l’homopolymère poly[(3-(4-hexylphényl) thiophène] (P3HPT) et le copolymère à blocs poly[3-(4-hexylphényl)thiophène]-bloc-poly(3-hexylthiophène) (P3HPT-b-P3HT). Nous avons également étudié une nouvelle famille de polymères à faible bande interdite basés sur l’alternance d’unités thiophène et dithiéno[3,2-b:2′,3′-d]silole riches en électrons et 2,1,3- benzothiadiazole pauvres en électrons. Après synthèse des différents monomères, les copolymères alternés ont été ensuite obtenus par polycondensation par couplage de Stille. Les différents matériaux synthétisés ont été d’abord caractérisés par analyse thermogravimétrique et par calorimétrie différentielle à balayage afin d’étudier leurs propriétés thermiques. Ensuite, des caractérisations structurales (en particulier DRX et neutrons), optiques (UV-visible) et morphologiques (AFM) ont été réalisées. A partir des résultats obtenus, nous avons pu évaluer les relations entre les structures et les propriétés des matériaux. Finalement, des cellules photovoltaïques à base des polymères synthétisés ont été réalisées et leurs performances ont été corrélées aux propriétés des matériaux. / The performances of organic solar cells based on the concept of bulk heterojunction configuration are strongly influenced by the optoelectronic properties of the electron donor polymer. The aim of this thesis was to develop new π-conjugated polymers to allow a better exploitation of the solar spectrum and thus improving the photogeneration of charges. For this,several polythiophene derivatives substituted by phenyl aromatic groups have been synthesized by the GRIM method, note the homopolymer poly[(3-(4-hexylphenyl)thiophene] (P3HPT) and the diblock copolymer poly[3-(4- exylphenyl)thiophene]-block-poly(3- hexylthiophène) (P3HPT-b-P3HT). We also studied a new family of low band gap polymers based on the alternation of electron-rich thiophene and dithieno[3,2-b:2′,3′-d]silole units andelectron-deficient 2,1,3-benzothiadiazole units. After synthesis of the various monomers, alternating copolymers were then obtained by Stille cross-coupling polycondensation. The different synthesized materials were first characterized by thermogravimetric analysis and by differential scanning calorimetry to study their thermal properties. Then, structural(especially XRD and neutron), optical (UV-visible) and morphological (AFM) characterizations were performed. From the obtained results, we were able to evaluate the relation between structures and properties of materials. Finally, photovoltaic cells based on the synthesized polymers were performed and their performances were correlated to material properties.

Photovoltaïque organique

Polythiophènes

GRIM

PCBM

Copolymères à blocs

Polymères à faible bande interdite

Polycondensation par couplage de Stille

Copolymères alternés

Organic photovoltaic

Polythiophenes

GRIM

PCBM

Diblock copolymer

Low band polymers

Stille cross-coupling polycondensation

Alternating copolymers

Synthèse de polystyrène greffé rose Bengale pour l’élaboration de films poreux photo-actifs structurés en nid d’abeille / Photoactive, porous honeycomb films prepared from rose Bengal-grafted polystyrene

Pessoni, Laurence

29 November 2013

Nous évaluons des films polymères poreux structurés en tant que nouveaux supports pour des photosensibilisateurs de l’oxygène singulet. L’objectif de cette association est l’obtention de matériaux photo-actifs à grande surface d’échange. Ces surfaces polymères, structurées ici en nid d’abeille, sont obtenues par la technique « breath figure » (trad. figure de souffle), à partir de polymères bien définis synthétisés par polymérisation radicalaire contrôlée par des nitroxydes (NMP), par transfert d’atome (ATRP) et par transfert réversible par addition/fragmentation (RAFT). Le photosensibilisateur rose Bengale a été greffé de manière covalente au polymère, soit par post-greffage sur un polymère précurseur, soit par modification d’un monomère fonctionnel puis copolymérisation de ce dernier avec du styrène. Ces différentes synthèses conduisent à des films contenant différents taux de rose Bengale. Les films ont été examinés en microscopie (fluorescence, confocale et champ large, électronique à balayage) afin d’établir la structuration des films et la localisation des espèces fluorescentes. L’efficacité des films polymères pour la photo-oxydation a été testée à l’interface liquide/solide en suivant par spectroscopie UV-visible la dégradation du dihydroxynaphtalène (DHN) ou de l’α-terpinène par l’oxygène singulet produit sous irradiation visible. Les films structurés sont environ cinq fois plus efficaces que les films non-poreux de même composition utilisés dans les mêmes conditions, ce qui s’explique par leur surface spécifique et par la localisation préférentielle du rose Bengale à la surface du matériau. / We evaluate structured porous polymer films as new substrates for photosensitizers of singlet oxygen, with a view to obtaining photo-active materials with high specific exchange areas. Here, honeycomb polymer films are obtained by the breath figure process, using well defined polymers synthesized by nitroxide-controlled radical polymerization (NMP), atom transfer polymerization (ATRP) and reversible addition/fragmentation transfer (RAFT). The photosensitizer, rose Bengal, is either post-grafted covalently to the polymer precursor, or pre-grafted to a monomer functional unit which is copolymerized with polystyrene. These syntheses lead to films with different rose Bengal concentrations. We determine the structure of the films and the location of the fluorescent dye by scanning electron microscopy and widefield and confocal microscopy. Efficiency of production of singlet oxygen was tested at a solid/liquid interface by monitoring the oxidation of dihydroxynaphthalene and α-terpinene, using UV-visible absorption spectroscopy. Honeycomb films are about five times more efficient than non-porous films of the same composition used in the same, as may be explained by their higher specific surface area and the preferential location of the photosensitizer at the film surface.

Copolymère

Film nid d’abeille

Breath figure

Polymérisation radicalaire contrôlée

Microscopies

Photosensibilisateur

Photo-oxydation

Oxygène singulet

Copolymer

Honeycomb film

Breath figure

Controlled radical polymerization

Microscopy

Photosensitizer

Photo-oxidation

Singlet oxygen

530

La poly(2-isopropyl-2-oxazoline) et ses dérivés en solution aqueuse et aux interfaces

Lafon, Adeline

08 1900

La poly(2-isopropyl-2-oxazoline) (PIPOZ) est un polymère thermosensible qui possède une température de solution critique inférieure (LCST) autour de 40 °C en solution aqueuse. Les travaux présentés s’intéressent aux propriétés en solution aqueuse et aux interfaces, de l’homopolymère PIPOZ, d’une PIPOZ fonctionnalisée avec un groupement lipidique (lipo-PIPOZ) et de copolymères à blocs à base de poly(éthylène glycol) et de PIPOZ. Si elle est régulièrement comparée à son isomère structurel le poly(N-isopropylacrylamide) (PNIPAM), les études sur les propriétés en solution de la PIPOZ sont cependant moins complètes que celles sur le PNIPAM. Le premier objectif des travaux présentés ici est de parfaire la connaissance du comportement en solution de la PIPOZ en présence d’additifs. Les effets de sels et de solvants hydromiscibles sur la solubilité de la PIPOZ ont été investigués par turbidimétrie et microcalorimétrie sur trois homopolymères de masses moléculaires différentes. Contrairement aux solutions de PNIPAM, l’ajout de méthanol à la solution de PIPOZ ne conduit pas au phénomène de cononsolvency où la solubilité du polymère diminue pour une certaine gamme de fractions volumiques de cosolvant. L’effet a néanmoins été observé dans le cas de système PIPOZ/Eau/THF. L’effet de sels sur la solubilité de la PIPOZ suit la série Hofmeister. La présence de sels chaotropes (NaI et NaSCN) en solution ont révélé un effet bien plus important sur la solubilité de la PIPOZ que pour son isomère. Les valeurs de point troubles de la solution de PIPOZ augmentent de plus de 30 °C pour une concentration en sel supérieure à 1 M. L’autre objectif de cette thèse est de synthétiser un système à base de PIPOZ capable de s’auto-assembler à l’interface air-eau afin de former des films interfaciaux par la technique Langmuir-Blodgett. A cette fin, un amorceur contenant un groupement lipidique (2 chaînes alkyles et un groupement phosphate) a été synthétisé et utilisé pour la polymérisation cationique par ouverture de cycle (CROP) du monomère 2-isopropyl-2-oxazoline conduisant à l’obtention d’un lipo-PIPOZ (Mn = 10 kg.mol-1). L’effet de deux sels (NaSCN et NaCl) sur les films interfaciaux a été étudié. Malgré leur effet opposé sur la solubilité de la PIPOZ en solution, ils conduisent tous les deux à l’expansion de la monocouche de lipo-PIPOZ. Transférés sur des substrats de mica, ces films ont été visualisés par microscopie à force atomique (AFM). La iv présence de sels dans la sous-phase lors de la formation de monocouches conduit à la formation d’agrégats d’épaisseur ~ 10 nm dont le diamètre augmente avec la concentration en sel. Enfin, le dernier objectif est de caractériser les propriétés en solutions de copolymères à blocs PIPOZ-b-PEG-b-PIPOZ. La polymérisation par CROP de la 2-isopropyl-2-oxazoline a été amorcée à partir d’un PEG (Mn = 2 kg.mol-1) bifonctionnel, Le polymère synthétisé (TrOH, Mn = 11 kg.mol-1) a ensuite subit une fonctionnalisation des extrémités de chaînes par des groupements octadécyles conduisant à l’obtention d’un copolymère à blocs téléchélique amphiphile et thermosensible (TrC18). Les propriétés des copolymères en solution aqueuse ont été étudiées par turbidimétrie, diffusion dynamique de la lumière (DLS), microcalorimétrie (DSC), microscopie électronique à transmission et spectroscopie à sonde fluorescente, FT-IR et AFM. Les deux copolymères sont thermosensibles et présentent des valeurs de points troubles de ~ 48 °C pour le copolymère TrOH et de ~ 38 °C pour le copolymère amphiphile. Ce dernier s’auto-assemble à température ambiante et forme, en solution aqueuse, des micelles de type fleurs de rayon hydrodynamique RH ~ 8 nm. L’effet prolongé de la température sur la cristallisation des blocs de PIPOZ a aussi été examinée. Les deux polymères cristallisent en solution aqueuse conduisant à la formation de fibres insolubles dans l’eau. Mots- / Poly(2-isopropyl-2-oxazoline) (PIPOZ) is a thermosensitive polymer whose lower critical solution temperature (LCST) in water is ~ 40 °C. This thesis focuses on the properties in aqueous solution and on interfaces of new poly(2-isopropyl-2-oxazoline) systems. PIPOZ is often compared to its structural isomer, the renowned poly(N-isopropylacrylamide) (PNIPAM). If PNIPAM has been the center of thermosensitive polymer research for the last three decades, it is PIPOZ which has recently been gaining interest. The first aim of the thesis is to improve on the knowledge on PIPOZ properties in aqueous solution in the presence of water-soluble additives. Effect of salts and cosolvents were investigated by turbidimetry and microcalorimetry (DSC) on PIPOZ homopolymers of different molecular weights. Effect of salts on PIPOZ solubility follows the Hofmeister series. Chaotropic anions (SCN-, I-) induce a large increase (up to 30 °C) of the cloud point temperature of PIPOZ solution which is 10 times larger than for PNIPAM. Adding methanol into PNIPAM aqueous solution leads to a decrease in solubility of the polymer. This phenomena is called cononsolvency. Unlike PNIPAM solutions, the addition of methanol in PIPOZ solution does not lead to a cononsolvency effect. Nevertheless, cononsolvency has been observed in the case of THF addition into PIPOZ aqueous solutions. The second aim of this work was to design and synthesize an amphiphilic PIPOZ able to anchor itself at the air-water interface and to form stable monolayer via the Langmuir-Blodgett technique. For that purpose, a lipidic initiator containing two alkyl chains and a phosphate group, was synthesized and used to initiate the cationic ring opening polymerization (CROP) of 2-isopropyl-2-oxazoline. The obtained amphiphilic (lipo-PIPOZ, Mn = 10 kg.mol-1) forms stable monolayers at the air-water interface. The presence of salt (NaCl or NaSCN) in the sub-phase during the compression of the films leads to expansion of the monolayer even if the salts have opposite effect on PIPOZ solubility in solution. The interfacial films were then transferred onto mica substrates and captured by atomic force microscopy (AFM). The salts induced the formation of aggregates (height ~ 10 nm) whose diameter depends on the salt and its concentration. At last, a block copolymer, TrOH, containing a central poly(ethylene glycol) (PEG) (Mn = 2 kg.mol-1) and two PIPOZ blocks was obtained by CROP of 2-isopropyl-2-oxazoline initiated vi by a bi-functionnal PEG. The total molecular weight was Mn ~ 11 kg.mol-1. Hydrophobic chain ends modification has been performed onto TrOH to bring amphiphilicity and to get a telechelic octadecyl-end capped block copolymer TrC18. The properties of these two block copolymers in water were characterized by dynamic light scattering (DLS), microcalorimetry (DSC), electronic transmission microscopy (TEM) and fluorescence spectroscopy, FT-IR and AFM. Cloud point temperature of copolymer solutions was found to be around 48 °C for TrOH and around 38°C for the amphiphilic analogue TrC18. The latter self-assembles at room temperature into flower micelles whose hydrodynamic radius is RH ~ 8 nm. Extended heating of both copolymer solutions leads to crystallization of PIPOZ block and insoluble fibers form in solution.

LCST

poly(2-isopropyl-2-oxazoline)

Polymères thermosensibles

Lipo-polymère

Série Hofmeister

Auto-assemblage

Thermosensitive polymers

Self assembly

Hofmeister series

Cononsolvency

Lipo-polymer

Block copolymer

Estudo das modificações estruturais induzidas pela radiação de alta energia sobre o copolímero P(VDF-TrFE) / Study of structural modifications induced by high energy radiation on the copolymer P (VDF-TrFE)

Hector Alexandre Chaves Gil

18 August 1998

Filmes de poli(fluoreto de vinilideno-co-trifluoretileno), P(VDF-IrFE), com uma razão molar 70/30 de VDF e IrFE, respectivamente, foram expostos à radiação-X sob vácuo em uma ampla faixa de doses de irradiação. Este é um copolímero estatístico e semi-cristalino que possui a especial característica de cristalizar espontaneamente numa estrutura ferroelétrica. Ele também possui uma transição de fase ferro-paraelétrica detectável, definida como a temperatura de Curie (Tc). Devido a estas características tem despertado considerável interesse, em especial na área da eletrônica como elemento transdutor. As modificações induzidas foram investigadas por espectroscopia fotoacústica no infravermelho (FT-IR/PAS), assim como FI-IR por transmitância, calorimetria exploratória diferencial (DSC), termogravimetria (IG), difração de raios-X, UV/Visível e espectroscopia Raman. As técnicas espectroscópicas vibracionais (fotoacústica no IR, Raman e absorção no IR) foram utilizadas na identificação de bandas relacionadas às regiões cristalinas e amorfas, formação e rompimento de ligações e presença de novos grupos funcionais. Nos espectros IR e Raman são observadas duas bandas que estão relacionadas às regiões cristalinas e sofrem mudanças nas suas intensidades relativas de acordo com a dose de radiação. Essas mudanças podem ser interpretadas como aumento ou diminuição do grau de cristalinidade, e também em termos de modificações de arranjos cristalinos. A difração de raio-X mostrou o aparecimento de um pico, próximo àquele da fase ferroelétrica, sob aumento da dose de radiação, devido a um processo de modificação do arranjo cristalino acima da dose de 480 kGy. Foi observado um aumento de intensidade no referido pico de difração, correspondendo a um aumento do grau de cristalinidade da amostra. As curvas de DSC mostraram picos endotérmicos correspondentes a fusão e transições de fases que, através de suas variações, possibilitam avaliar os efeitos da irradiação com raios-X. Os espectros UV/Visível mostraram absorções dos cromóforos cujas intensidades de banda aumentam com a dose de radiação e diminuem durante o envelhecimento da amostra. Os dados indicam que a radiação-X induz uma modificação no arranjo cristalino do P(VDF-TrFE). Tal modificação, é provavelmente uma mudança de estrutura ferroelétrica para outra, paraelétrica. / Poly(vinylidene fluoride-co-trifluoroethylene) films, P(VDF-TrFE), with a molar ratio 70/30 of VDF and TrFE units, respectively, were exposed to X-ray radiation under vacuum in a wide range of irradiation doses. This is a statistic semi-crystalline copolymer and displays the unique feature of a spontaneous crystallization into a ferroelectric structure. It also possesses a detectable ferro-paraelectric transition, the Curie temperature (Tc). Due to these characteristics considerable interest in such copolymer has been generated, specially in electronics as a transducer element. The induced modifications were investigated by Fourier transform infrared photoacoustic spectroscopy (FT-IR/PAS) as well as transmittance FT-IR, differential scanning calorimetry (DSC), thermogravimetry (TG), X-ray diffraction, UV/Visible and Raman spectroscopies. The spectroscopic vibrational techniques (FT-IR/PAS, FT-IR and Raman) were used to identify bands related to crystalline and amorphous regions, bond formation, bond scission and presence of new functional groups. In both IR and Raman spectra were observed a couple of bands related to the crystalline regions that undergo changes of relative intensities with the radiation dose. These changes may be interpreted as an increase or decrease of the crystallinity degree, and also modifications of crystal structure. X-ray diffraction showed a new peak, close to that of the ferroelectric phase, under increasing radiation doses, due to a modification of crystal structure process above 480 kGy dose. An increase in the intensity of the former diffraction peak was observed, corresponding to an increase in the crystallinity degree. The DSC curves showed the endothermic peaks corresponding to the melting and the phase transitions, whose variations allow an evaluation of the effects of X-ray radiation. UV/Visible spectra showed chromophores absorptions whose band intensities increase by radiation dose and decrease during sample\'s aging. The data indicate that P(VDF-TrFE) under X-ray radiation exposition undergoes a crystal structure modification, probably a change of a ferroelectric structure to another one, paraelectric.

Copolímero

Espectroscopia fotoacústica

Espectroscopia Raman

Espectroscopia vibracional

P(VDF-TrFE)

Polímeros (Química orgânica)

Raios-X

Photoacoustic spectroscopy

Polymers (Organic chemistry)

PVDF-TrFE) copolymer

Raman spectroscopy

Vibrational spectroscopy

X-rays

Estudo das modificações estruturais induzidas pela radiação de alta energia sobre o copolímero P(VDF-TrFE) / Study of structural modifications induced by high energy radiation on the copolymer P (VDF-TrFE)

Gil, Hector Alexandre Chaves

18 August 1998

Filmes de poli(fluoreto de vinilideno-co-trifluoretileno), P(VDF-IrFE), com uma razão molar 70/30 de VDF e IrFE, respectivamente, foram expostos à radiação-X sob vácuo em uma ampla faixa de doses de irradiação. Este é um copolímero estatístico e semi-cristalino que possui a especial característica de cristalizar espontaneamente numa estrutura ferroelétrica. Ele também possui uma transição de fase ferro-paraelétrica detectável, definida como a temperatura de Curie (Tc). Devido a estas características tem despertado considerável interesse, em especial na área da eletrônica como elemento transdutor. As modificações induzidas foram investigadas por espectroscopia fotoacústica no infravermelho (FT-IR/PAS), assim como FI-IR por transmitância, calorimetria exploratória diferencial (DSC), termogravimetria (IG), difração de raios-X, UV/Visível e espectroscopia Raman. As técnicas espectroscópicas vibracionais (fotoacústica no IR, Raman e absorção no IR) foram utilizadas na identificação de bandas relacionadas às regiões cristalinas e amorfas, formação e rompimento de ligações e presença de novos grupos funcionais. Nos espectros IR e Raman são observadas duas bandas que estão relacionadas às regiões cristalinas e sofrem mudanças nas suas intensidades relativas de acordo com a dose de radiação. Essas mudanças podem ser interpretadas como aumento ou diminuição do grau de cristalinidade, e também em termos de modificações de arranjos cristalinos. A difração de raio-X mostrou o aparecimento de um pico, próximo àquele da fase ferroelétrica, sob aumento da dose de radiação, devido a um processo de modificação do arranjo cristalino acima da dose de 480 kGy. Foi observado um aumento de intensidade no referido pico de difração, correspondendo a um aumento do grau de cristalinidade da amostra. As curvas de DSC mostraram picos endotérmicos correspondentes a fusão e transições de fases que, através de suas variações, possibilitam avaliar os efeitos da irradiação com raios-X. Os espectros UV/Visível mostraram absorções dos cromóforos cujas intensidades de banda aumentam com a dose de radiação e diminuem durante o envelhecimento da amostra. Os dados indicam que a radiação-X induz uma modificação no arranjo cristalino do P(VDF-TrFE). Tal modificação, é provavelmente uma mudança de estrutura ferroelétrica para outra, paraelétrica. / Poly(vinylidene fluoride-co-trifluoroethylene) films, P(VDF-TrFE), with a molar ratio 70/30 of VDF and TrFE units, respectively, were exposed to X-ray radiation under vacuum in a wide range of irradiation doses. This is a statistic semi-crystalline copolymer and displays the unique feature of a spontaneous crystallization into a ferroelectric structure. It also possesses a detectable ferro-paraelectric transition, the Curie temperature (Tc). Due to these characteristics considerable interest in such copolymer has been generated, specially in electronics as a transducer element. The induced modifications were investigated by Fourier transform infrared photoacoustic spectroscopy (FT-IR/PAS) as well as transmittance FT-IR, differential scanning calorimetry (DSC), thermogravimetry (TG), X-ray diffraction, UV/Visible and Raman spectroscopies. The spectroscopic vibrational techniques (FT-IR/PAS, FT-IR and Raman) were used to identify bands related to crystalline and amorphous regions, bond formation, bond scission and presence of new functional groups. In both IR and Raman spectra were observed a couple of bands related to the crystalline regions that undergo changes of relative intensities with the radiation dose. These changes may be interpreted as an increase or decrease of the crystallinity degree, and also modifications of crystal structure. X-ray diffraction showed a new peak, close to that of the ferroelectric phase, under increasing radiation doses, due to a modification of crystal structure process above 480 kGy dose. An increase in the intensity of the former diffraction peak was observed, corresponding to an increase in the crystallinity degree. The DSC curves showed the endothermic peaks corresponding to the melting and the phase transitions, whose variations allow an evaluation of the effects of X-ray radiation. UV/Visible spectra showed chromophores absorptions whose band intensities increase by radiation dose and decrease during sample\'s aging. The data indicate that P(VDF-TrFE) under X-ray radiation exposition undergoes a crystal structure modification, probably a change of a ferroelectric structure to another one, paraelectric.

Copolímero

Espectroscopia fotoacústica

Espectroscopia Raman

Espectroscopia vibracional

P(VDF-TrFE)

Photoacoustic spectroscopy

Polímeros (Química orgânica)

Polymers (Organic chemistry)

PVDF-TrFE) copolymer

Raios-X

Raman spectroscopy

Vibrational spectroscopy

X-rays

Fabrication and characterization of nanocellular polymeric materials from nanostructured polymers / Fabrication et caractérisation de polymères micro et nano cellulaires à partir de polymères nanostructurés à base PMMA / Fabricación y caracterización de materiales poliméricos submicrocelulares a partir de polímeros nanoestructurados

Pinto Sanz, Javier

07 May 2014

Cette thèse porte sur la production et l’étude de mousses de polymères micro ou nanoporeux à partir de mélanges nanostructurés à base de PMMA (poly(méthyl méthacrylate)) par dissolution et moussage avec CO2. D’autre part, plusieurs techniques expérimentales ont été améliorées ou adaptées afin de fournir de précieuses informations sur les systèmes étudiés. La nanostructuration de mélanges solides denses à base de PMMA est induite par l’addition d’un copolymère à blocs (MAM, poly(méthyl méthacrylate)-co-poly(butylacrylate)-co-poly(méthyl méthacrylate)). Les structures cellulaires des mousses produites à partir de ces mélanges ont été caractérisées et expliquées ; on a démontré que la nanostructuration agit comme un modèle (un gabarit) pour la structure cellulaire, permettant l’obtention d’un large éventail de structures cellulaires et en particulier des mousses nanocellulaires. De plus il est démontré que les paramètres du procédé, tels que la pression et la température, permettent la différenciation entre les deux voies de moussage utilisées ;ceux-ci ont une influence significative sur les caractéristiques finales des mousses de PMMA seul, mais peu sur celles des mélanges PMMA/MAM. Les mousses dans ces mélanges présentent un mécanisme de nucléation hétérogène contrôlée par la nanostructuration, ce qui permet de limiter l’influence des paramètres de traitement thermique dans la nucléation de la cellule. En outre, certains mélanges de PMMA/MAM présentent également une remarquable stabilité de leur morphologie au cours de la croissance cellulaire, ce qui évite l’effondrement cellulaire et la coalescence.Enfin, on a étudié l’influence de la transition entre les structures micro-cellulaires et les structures nano-cellulaires sur les propriétés : une nette diminution de la conductivité thermique en raison de l’effet de Knudsen que nous avons mis en évidence, une augmentation notable de la température de transition vitreuse en raison de l’isolement des chaînes de polymères dans les parois (les murs) de la cellule ; mais n’avons pas noté d’influence importante de cette transition sur le module de Young. / This dissertation focuses on the production and study of nanocellular foams from PMMA based(poly(methyl methacrylate) materials by CO2 gas dissolution foaming.Due to the novelty of this research field several experimental techniques have been improved or adapted in order to provide valuable information from the systems understudy. Nanostructuration of PMMA-based blends induced by the addition of a block copolymer (MAM, poly(methyl methacrylate)-b-poly(butyl acrylate)-b-poly(methyl methacrylate)) and the cellular structure of the foams produced from these blends have been characterized and related; obtaining that the nanostructuration acts as a pattern for the cellular structure, allowing obtaining a wide range of cellular structures and in particular nanocellular foams. It is demonstrated that processing parameters, such as pressure and temperature, allow differentiating between two foaming routes ; and present a significant influence on the foaming process and final characteristics of neat PMMA foams, but not on PMMA/MAM blends. PMMA/MAM blends present a heterogeneous nucleation mechanism controlled by the nanostructuration that avoid the influence of the processing parameters in the cell nucleation. In addition, some PMMA/MAM blends also present a high stability during the cell growth, avoiding the cellular collapse and coalescence. Finally, it has been studied the influence on the foams properties of the transition between the microcellular and the nanocellular ranges; obtaining that there is a clear influence on the thermal conductivity, which decreases in nanocellular foams due to the Knudsen effect,and the glass transition temperature, which increases in nanocellular foams due to the confinement of the polymer chains in the cell walls, but not on the Young’s modulus. / Esta tesis se centra en la producción y estudio de de espumas poliméricas nanocelulares producidas a partir de materiales basados en PMMA (poli(metil metacrilato)), mediante la técnica de espumado por disolución de gas usando CO2. Debido a la novedad de este campo de investigación ha sido necesario mejorar o adaptar varias técnicas experimentales para obtener la información necesaria de los sistemas bajo estudio. Se han caracterizado y relacionado la nanoestructuración de mezclas basadas en PMMA, inducida por la adición de un copolímero de bloque (MAM, poli(metil metacrilato)-copoli(butil acrilato)-co-poli(metil metacrilato)), y la estructura celular de las espumas producidas a partir de esas mezclas; obteniéndose que la nanoestructuración actúa como patrón para la estructura celular, permitiendo obtener una amplia variedad de estructuras celulares y en particular de estructuras nanocelulares.Se ha demostrado que los parámetros de procesado, como la presión y temperatura,permiten diferenciar entre dos rutas de espumado y presentan una influencia significativa en las características finales de las espumas de PMMA puro, pero no en las mezclas de PMMA/MAM. Estas mezclas presentan un mecanismo de nucleación heterogénea controlado por la nanoestructuración, que evita que los parámetros de procesado influyanen el proceso de nucleación de las celdas. Además, algunas mezclas de PMMA/MAM también presentan una alta estabilidad durante el crecimiento de las celdas, evitando el colapso de la estructura celular y la coalescencia.Finalmente, se ha estudiado la influencia en las propiedades de las espumas de la transición entre el rango microcelular y el rango nanocelular; obteniéndose que hay una clara influencia sobre la conductividad térmica, que decrece en las espumas nanocelulares debido al efecto Knudsen, y sobre la temperatura de transición vítrea, que se incrementa debido al confinamiento de las cadenas poliméricas en las paredes de las celdas, pero no sobre el módulo de Young.

Mousse polymère

Nano poreux

Copolymère à blocs

Nucléation hétérogène

Moussage pour dissolution de gaz

Polymères nanostructurés

Polymeric nanofoam

Block copolymer

Heterogeneous nucleation

Gas dissolution foaming

Nanostructured polymers

Espumas poliméricas nanocelulares

Copolímero de bloque

Nucleación heterogénea

Espumado por disolución de gas

Polímeros nanoestructurados

Charge-Storage mechanisms in polymer electrets

Camacho González, Francisco

January 2006

In view of the importance of charge storage in polymer electrets for electromechanical transducer applications, the aim of this work is to contribute to the understanding of the charge-retention mechanisms. Furthermore, we will try to explain how the long-term storage of charge carriers in polymeric electrets works and to identify the probable trap sites. Charge trapping and de-trapping processes were investigated in order to obtain evidence of the trap sites in polymeric electrets. The charge de-trapping behavior of two particular polymer electrets was studied by means of thermal and optical techniques. In order to obtain evidence of trapping or de-trapping, charge and dipole profiles in the thickness direction were also monitored. <br><br> In this work, the study was performed on polyethylene terephthalate (PETP) and on cyclic-olefin copolymers (COCs). PETP is a photo-electret and contains a net dipole moment that is located in the carbonyl group (C = O). The electret behavior of PETP arises from both the dipole orientation and the charge storage. In contrast to PETP, COCs are not photo-electrets and do not exhibit a net dipole moment. The electret behavior of COCs arises from the storage of charges only. <br><br> COC samples were doped with dyes in order to probe their internal electric field. COCs show shallow charge traps at 0.6 and 0.11 eV, characteristic for thermally activated processes. In addition, deep charge traps are present at 4 eV, characteristic for optically stimulated processes. <br><br> PETP films exhibit a photo-current transient with a maximum that depends on the temperature with an activation energy of 0.106 eV. The pair thermalization length (rc) calculated from this activation energy for the photo-carrier generation in PETP was estimated to be approx. 4.5 nm. The generated photo-charge carriers can recombine, interact with the trapped charge, escape through the electrodes or occupy an empty trap. <br><br> PETP possesses a small quasi-static pyroelectric coefficient (QPC): ~0.6 nC/(m²K) for unpoled samples, ~60 nC/(m²K) for poled samples and ~60 nC/(m²K) for unpoled samples under an electric bias (E ~10 V/µm). When stored charges generate an internal electric field of approx. 10 V/µm, they are able to induce a QPC comparable to that of the oriented dipoles. Moreover, we observe charge-dipole interaction. Since the raw data of the QPC-experiments on PETP samples is noisy, a numerical Fourier-filtering procedure was applied. Simulations show that the data analysis is reliable when the noise level is up to 3 times larger than the calculated pyroelectric current for the QPC. <br><br> PETP films revealed shallow traps at approx. 0.36 eV during thermally-stimulated current measurements. These energy traps are associated with molecular dipole relaxations (C = O). On the other hand, photo-activated measurements yield deep charge traps at 4.1 and 5.2 eV. The observed wavelengths belong to the transitions in PETP that are analogous to the π - π* benzene transitions. The observed charge de-trapping selectivity in the photocharge decay indicates that the charge detrapping is from a direct photon-charge interaction. Additionally, the charge de-trapping can be facilitated by photo-exciton generation and the interaction of the photo-excitons with trapped charge carriers. These results indicate that the benzene rings (C6H4) and the dipolar groups (C = O) can stabilize and share an extra charge carrier in a chemical resonance. In this way, this charge could be de-trapped in connection with the photo-transitions of the benzene ring and with the dipole relaxations. <br><br> The thermally-activated charge release shows a difference in the trap depth to its optical counterpart. This difference indicates that the trap levels depend on the de-trapping process and on the chemical nature of the trap site. That is, the processes of charge detrapping from shallow traps are related to secondary forces. The processes of charge de-trapping from deep traps are related to primary forces. Furthermore, the presence of deep trap levels causes the stability of the charge for long periods of time. / Angesichts der Bedeutung der Ladungsspeicherung in Polymerelektreten für viele Anwendungen, wie z.B. in elektromechanischen Wandler, ist es das Ziel dieser Arbeit, zum Verständnis der zugrundeliegenden Mechanismen der kurz- und langfristigen Ladungsstabilisierung beizutragen sowie mögliche Haftstellen zu identifizieren. Ladungs- und Entladungsprozesse in Elektreten geben Hinweise auf Ladungshaftstellen. Diese Prozesse wurden mit thermischen und optischen Methoden bei gleichzeitiger Messung von Ladungs- und Polarisationprofilen untersucht. Die experimentellen Untersuchungen der vorliegenden Arbeit wurden an Polyethylenterephthalat (PETP) und an Cyclischen-Olefin Copolymeren (COC) durchgeführt. <br><br> PETP ist ein Photoelektret und weist in der Carbonylgruppe (C = O) ein Dipolmoment auf. Die Elektreteigenschaften ergeben sich sowohl aus der Orientierungspolarisation als auch aus der Ladungsspeicherung. Im Gegensatz zu PETP ist COC kein Photoelektret und zeigt auch keine Orientierungspolarisation. Deshalb folgen die Elektreteigenschaften des COC ausschließlich aus der Ladungsspeicherung. Die COC-Proben wurden mit Farbstoffen dotiert, um das innere elektrische Feld zu untersuchen. Diese Systeme zeigen flache Ladungshaftstellen bei 0,6 und 0,11 eV, die durch thermisch stimulierte Prozesse entladen werden sowie tiefe Haftstellen bei 4 eV, die optisch stimuliert werden können. <br><br> PETP-Filme zeigen einen transienten Photostrom mit einem Maximalwert ( jp), der von der Temperatur mit einer Aktivierungsenergie von 0,106 eV abhängt. Der thermische Paarabstand (rc) kann für die Photoladungsgeneration in PETP auf ca. 4,5 nm abgeschätzt werden. Die Photoladungsträger können rekombinieren, mit den gespeicherten Ladungen interagieren, über die Elektroden entkommen oder eine leere Haftstelle einnehmen. <br><br> PETP zeigt einen kleinen quasi-statischen pyroelektrischen Koeffizienten (QPC) von ca. 0,6 nC/(m²K) für nicht polarisierte Proben, ca. 60 nC/(m²K) für polarisierte Proben und ca. 60 nC/(m²K) für nicht polarisierte Proben mit Vorspannung (E ~10 V/µm). Wenn die gespeicherten Ladungen ein internes elektrisches Feld von ca. 10 V/µm generieren können, sind sie in der Lage, einen QPC herbeizuführen, der vergleichbar mit dem von orientierten Dipolen ist. Es ist außerdem möglich, eine Ladungs-Dipol-Wechselwirkung zu beobachten. Da die QPM-Daten von PETP auf Grund des geringen Signals verrauscht sind, wurde ein numerisches Fourier-Filterverfahren angewandt. Simulationen zeigen, dass eine zuverlässige Datenanalyse noch bei einem Signal möglich ist, dessen Rauschen bis zu 3-mal größer ist als der berechnete pyroelektrische Strom. <br><br> Messungen der thermisch stimulierten Entladung von PETP-Filmen ergaben flache Haftstellen bei ca. 0,36 eV, welche mit der Dipolrelaxation der Carbonylgruppe (C = O) assoziiert sind. Messungen der photostimulierten Entladung ergaben tiefe Haftstellen bei 4,1 und 5,2 eV. Die beobachteten Wellenlängen entsprechen Übergängen in PETP analog den π - π* Übergängen in Benzol. Die beobachtete Selektivität bei der photostimulierten Entladung lässt auf eine direkte Wechselwirkung von Photonen und Ladungen schließen. Einen zusätzlichen Einfluß auf die Entladung hat die Erzeugung von Photo-Exzitonen und deren Wechselwirkung mit den gespeicherten Ladungsträgern. Diese Ergebnisse deuten darauf hin, dass die Phenylringe (C6H4) und die Dipolgruppen (C = O) eine zusätzliche Ladung in einer chemischen Resonanz stabilisieren und miteinander teilen können. Daher kann die gebundene Ladung auch durch einen Photoübergang im Benzolring oder durch eine Dipolrelaxation freigesetzt werden. <br><br> Die mittels thermisch stimulierter Entladung bestimmte Tiefe der Haftstellen unterscheidet sich deutlich von den mittels photostimulierter Entladung gemessenen Werten. Flachere Haftstellen werden bei der thermisch stimulierten Entladung gefunden und können sekundären Kräften zugeordnet werden. Die tieferen Haftstellen sind chemischer Natur und können primären Kräften zugeordnet werden. Letztere sind für die Langzeitstabilität der Ladung in Polymerelektreten verantwortlich.

Charge-Storage

polymer-electret

photo-stimulated discharge

polyethylene terephthalate

cyclic-olefin copolymer

charge-dipole interaction

thermo-stimulated discharge

thermo-luminescence

trap-depth

charge profiling

charge storage

charge trap

Physics

Polymer self-assembly : adding complexity to mesostructures of diblock copolymers by specific interactions / Polymer self-assembly : adding complexity to mesostructures of diblock copolymers by specific interactions

Schlaad, Helmut

January 2005

In dieser Arbeit wurde die Rolle selektiver, nicht-kovalenter Wechselwirkungen bei der Selbstorganisation von Diblockcopolymeren untersucht. Durch Einführung elektrostatischer, dipolarer Wechselwirkungen oder Wasserstoffbrückenbindungen sollte es gelingen, komplexe Mesostrukturen zu erzeugen und die Ordnung vom Nanometerbereich auf größere Längenskalen auszuweiten. Diese Arbeit ist im Rahmen von Biomimetik zu sehen, da sie Konzepte der synthetischen Polymer- und Kolloidchemie und Grundprinzipien der Strukturbildung in supramolekularen und biologischen Systemen verbindet. Folgende Copolymersysteme wurden untersucht: (i) Blockionomere, (ii) Blockcopolymere mit chelatisierenden Acetoacetoxyeinheiten und (iii) Polypeptid-Blockcopolymere. / In this work, the basic principles of self-organization of diblock copolymers having the in&#172;herent property of selective or specific non-covalent binding were examined. By the introduction of electrostatic, dipole&ndash;dipole, or hydrogen bonding interactions, it was hoped to add complexity to the self-assembled mesostructures and to extend the level of ordering from the nanometer to a larger length scale. This work may be seen in the framework of biomimetics, as it combines features of synthetic polymer and colloid chemistry with basic concepts of structure formation applying in supramolecular and biological systems. The copolymer systems under study were (i) block ionomers, (ii) block copolymers with acetoacetoxy chelating units, and (iii) polypeptide block copolymers.

Chemistry and allied sciences