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Restraining Associations of Fluorene-Based Fluorescent Alternative and Block Copolymers by Crosslinked NetworkSu, Fu-Kun 09 January 2007 (has links)
Polyfluorene (PF) and its derivates as well-known fluorescent materials are promising materials in optoelectronic applications due to their high quantum yields in the solid state. Nevertheless, the easy chain inter-action in PFs to result in the unfavorable associations (aggregate and excimer) are generally considered to be detrimental to the emission efficiency in the concentrated solid state and/or at high temperatures. In the study, restraining the extent of associations is therefore by embedding fluorene-based alternative and block copolymers in crosslinked network as matrix.
Firstly, alternative copolymers with fluorene connected by anthracene (or pyridine or fluorene) ring were prepared through Suzuki coupling. In this way, the steric hindrance between the o-hydrogens in the neighboring aromatic ring causes the twisting of the constructed polymer chain and the resulting twisting chain conformation keeps the polymer chains from the unfavorable inter-chain interactions and reduces the extent of the association. Secondly, the alternative fluorene-anthracene copolymer (a-PFA) from the first approach can be further chemically formulated to obtain a triblock copolymer with the central a-PFA rod block connected by two flexible poly(methyl methacrylate) (PMMA) segments. In this way, the two flexible PMMA chains serve as spatial isolator to keep the central PFA rod from approaching each other and a reduced extent of association is expected for this block polymer of b-PMMA-PFA. Thirdly, all the alternative and block copolymers cited above were immersed in the curable liquid methyl metharcylate (MMA)/ditrimethylolproanetetracrylate (DTTPT) monomer mixtures and photo-irradiated to obtain composites with the fluorescent polymers immersed in the cured crosslinked network. The chain morphology and thus the degree of associations will be successfully frozen by the immobilized crosslinked network.
For systems before and after photo-irradiation, the degree of aggregation was evaluated by Uv-vis absorption, photoluminescent (PL) and PL excitation spectroscopy. Polymer concentration was found to be important factor in controlling the degree of aggregation and was discussed in this study. In addition, the cured solid composites after high-temperature annealing were studied and compared with pure PFs to evaluate the effectiveness of this crosslinking strategy in restraining the extent of aggregation. In most cases, quantum yields (£XPLs) also were measured to evaluate the effectiveness of this strategy.
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Revêtements poudres UV : mécanismes de polymérisation et étude des relations structures / propriétés / UV powder coatings : polymerization mechanisms and study of structures / properties relationshipsMaurin, Vanessa 06 March 2012 (has links)
Inscrite dans le cadre d’un projet ANR, la thèse porte sur l’étude et le développement des revêtements poudres UV en vue du recouvrement de panneaux de bois. La thèse détaille les spécificités de ces formulations et de la technologie associée afin de constituer une bibliographie solide propre à ce domaine. Les travaux expérimentaux se basent sur des formulations modèles comprenant une résine poudre UV (uréthane diacrylate ou polyester diméthacrylate) et un photoamorceur. Une étude mécanistique permet de montrer les influences de la température et de la viscosité, de l’intensité lumineuse et de l’atmosphère sur la réactivité des formulations modèles. Il est également démontré que les mécanismes de terminaison spécifiques à ces systèmes suivent des processus mixtes: bimoléculaire, pseudo-monomoléculaire et recombinaison des radicaux primaires. La prédominance des différents processus dépend de l’avancement de la réaction. La formation du réseau de réticulation est ensuite étudiée en fonction de la source d’irradiation: convoyeur semi-industriel doté de lampes UV ou système LED émettant autour de 395 nm. Les caractéristiques du réseau de réticulation (Tg, densité de réticulation, module d’Young) sont reliées aux propriétés des revêtements finaux (flexibilité, résistance à la rayure ou au solvant). L’utilisation d’acrylates multifonctionnels a un impact sur les longueurs de chaînes et la densité de réticulation. En vue d’applications spécifiques, il est finalement proposé d’incorporer une argile modifiée avec de l’Argent au sein des formulations modèles pour obtenir des revêtements poudres UV antibactériens homogènes possédant de bonnes propriétés de résistance. / In the frame of a project of the Agency National Research (France), the thesis deals with the study and the development of UV powder coatings dedicated to wood based panels. The work describes the main features of these formulations and the associated technology in order to offer a strong bibliography specific to this area. The experiments are based on model formulations containing an UV powder resin (diacrylate urethane or dimethacrylate polyester) and a photoinitiator. A mechanistic study allows highlighting the influence of temperature and viscosity, light intensity and atmosphere on the reactivity of the model formulations. It is also shown that the termination mechanisms specific to theses systems follow mixed processes: bimolecular, pseudo-monomolecular and primary radical termination. The predominance of the different processes is related to the reaction conversion. The building of the crosslinking network is then studied depending of the irradiation source: semi-industrial conveyor equipped with UV lamps or LED system emitting around 395 nm. The characteristics of the crosslinking network (Tg, crosslinking density, Young’s modulus) are linked to the final coatings properties (flexibility, scratch and solvent resistance). The incorporation of multifunctional acrylates affects the chains length and crosslinking density. To reach specific applications, it is finally proposed to add a silver-modified clay into model formulations to obtain homogeneous antibacterial UV powder coatings exhibiting good resistance properties.
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