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Nové organické polovodiče pro bioelektroniku / New organic semiconductors for bioelectronicsMalečková, Romana January 2020 (has links)
This thesis focuses on the characterization of PEDOT:DBSA, a new semiconducting polymer for use in bioelectronic devices. It also deals with possibilities of surface treatment in order to enhance its biocompatibility and stability in aqueous environments. For this purpose, the organic polymer films were crosslinked with two crosslinking agents – GOPS and DVS. The ability of these agents to prevent leaching of some fractions of the polymer films in an aqueous environment and the ability to bind polymer molecules to each other as well as to the glass substrate was studied using the delamination test. Subsequently, the effects of these crosslinking agents on the film properties essential for the proper functions of bioelectronics made of these materials, was studied by contact angle measurements and four-point probes respectively. Moreover, several OECTs were prepared using original and crosslinked material as an active layer and were characterized by measuring transconductance and volumetric capacitance. PEDOT:DBSA has been shown to be a suitable material for use in bioelectronics, but its thin layers need to be stabilized in an aqueous environment. The agent DVS appears to be unsuitable for this purpose, mainly due to its insufficient film stabilization and its increased hydrophilicity of the film surface, thus increased tendency to interact with water, resulting in degradation of these thin layers. In contrast, GOPS, despite some reduction in film conductivity, has been able to stabilize the polymer layer over the long term, and thus appears to be a suitable way to stabilize PEDOT:DBSA.
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Développement de formulations à base de polyoléfines pour la réalisation de feuilles réticulables sous faisceau ionisant et non ionisant. / Development of polyolefin based formulations for manufacturing crosslinkable sheets under ionising and non-ionising radiation.Jego, Lucas 21 June 2019 (has links)
L’entreprise Chomarat produit des feuilles en polyoléfine pour les revêtements intérieurs de voitures. Ces feuilles sont grainées afin de leur donner un aspect de surface particulier qui constitue un élément psychosensoriel important pour le consommateur. Les feuilles grainées doivent être thermoformées afin de pouvoir leur imprimer la forme de la structure rigide qui les supportera. L’étape de thermoformage se déroule à haute température et constitue de ce fait une étape critique du processus. En effet, lors de la déformation en température, l’étirement du matériau tend à déformer le grain de façon non homogène, voire à le faire disparaître. Pour obtenir des matériaux avec une bonne tenue du grain, les feuilles grainées sont partiellement réticulées. Ce travail de thèse vise à développer des formulations réticulables répondant à cette problématique. Deux voies de réticulation ont été envisagées : la réticulation par irradiation sous faisceau d’électrons et ou par insolation UV. Cette dernière méthode de réticulation est totalement novatrice dans ce domaine industriel. Les terpolymères éthylène-propylène-diène monomère (EPDM) présentent des caractéristiques favorisant la réticulation. L’effet de l’irradiation (EB ou UV) sur ces élastomères, ainsi que leurs mélanges avec du polypropylène (PP), a été étudiée. Les caractérisations ont principalement été menées par des mesures de rhéologie, des mesures de taux de gel et des calculs de densité de réticulation. Dans un premier temps, seule l’irradiation EB a été testée, sur des EPDM ainsi que sur d’autres types d’élastomères. Ensuite, les effets de l’irradiation UV ont été étudiés à travers la mise en place d’une étude modèle sur des oligomères de faibles masses choisis pour simuler le comportement des doubles liaisons des EPDM. La composition des différentes formulations étudiées comprenait donc un oligomère, un monomère multifonctionnel et un photoamorceur permettant la photoréticulation. Suite à cette étude, les meilleurs couples « photoamorceur / agent de réticulation » ont été transposés à des EPDM, d’abord en utilisant un EPDM de faible masse molaire puis un EPDM de haute masse molaire utilisé couramment dans les formulations au niveau industriel. Enfin, l’ajout du PP et en dernier lieu l’ajout de pigments et d’agents anti-UV ont été étudiés sur l’efficacité de la photoréticulation. / The Chomarat company manufactures polyolefin based sheets for automotive parts. These sheets are grained in order to give them a particular surface pattern which represents an important psycho-sensory aspect for consumers. The grained sheets must be thermoformed to give them the shape of the rigid structure on which they will be set in place. The thermoforming step is proceeded at high temperature and is therefore a critical step of this process. Indeed, while being deformed in temperature, the stretching of the material tends to distort the grained pattern in a non-homogeneous way and even to cancel it. In order to obtain materials that give an acceptable retention of the pattern after being thermoformed, the grained sheet must be partially crosslinked. This thesis work aims to develop crosslinkable formulations that are able to achieve this challenge. Two crosslinking methods have been considered: crosslinking using electron beam (EB) irradiation or UV irradiation. This last method is a pioneering crosslinking pathway in this industrial field. Terpolymers of ethylene-propylene-diene monomers (EPDM) have chemical structures that promote crosslinking. The effect of irradiation (EB or UV) on these elastomers, as well as on their blends with polypropylene (PP) have been studied. The characterisations have been mainly monitored using rheological measurements, gel contents measurements and crosslinking densities calculations. Firstly, only the effects of EB irradiation on EPDM and other types of elastomers have been investigated. Then, the effects of UV irradiation have been studied through a modelling study on low mass oligomers chosen to mimic the behaviour of EPDM double bonds. The different formulations studied were composed of an oligomer, a multifunctional monomer acting as a crosslinker and a photoinitiator allowing the crosslinking. Following this study, the best photoinitiator/crosslinking agent couples were transposed to EPDM, using firstly a low mass EPDM then a high mass one frequently used in formulations in industrial fields. At last, the effects on the photocrosslinking efficiency of adding first PP then pigments and anti-UV agents have been examined.
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Biosuperabsorbent from proteinsBarghi, Hamidreza, Majdejabbari, Sara January 2009 (has links)
The present work is synthesizing novel protein-based superabsorbent hydrogels from albumin protein (AP) and isolated zygomycetes protein (IZP) via modification with an acylating reagent and a bifunctional crosslinker, also investigation on their swelling behaviors under some conditions. The hydrophilic acylating reagent was introduced into albumin and zygomycetes proteins and hydrophylicity of albumin and isolated zygomycetes protein were increased by ethylenediaminetetraacetic dianhydride (EDTAD). Provided protein hydrogels through this method include modification of lysyl residues in the unfolded proteins via adding of one or more hydrophilic carboxyl groups. The reaction was developed with a dialdehyde crosslinking reagent (glutaraldehyde) in order to stabilize the modified protein configuration. The maximum capacity of EDTAD-AP hydrogel swelling was observed 296 g water per g of dry gel, and for EDTAD-IZP hydrogel was 87 g water per g of dry gel.In this study, effect of selected physical and chemical parameters such as protein structure, extent of modification, protein concentration, various pH, ionic strength, gel particle size, temperature as important factors affecting the water uptake behavior of superabsorbent hydrogel were investigated. In addition, the effect of some organic solvents particularly absolute ethanol for increasing the swelling properties was studied. / Uppsatsnivå: D
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A Study of Various Parameters Affecting Adhesion of Coatings to Metal Substrates / En studie av olika parametrar som påverkar ytbeläggningars adhesion till metallsubstratPathanatecha, Worabhorn January 2019 (has links)
The adhesion of coatings is of high importance in the coating industry and a more thorough understanding of adhesion behavior is required. In this thesis work, seven parameters affecting adhesion of silane-modified poly(urethane urea) (PUSi) coatings on pretreated steel and aluminum substrates were studied. These parameters include substrate type, dry film thickness (20-30 and 60-70 μm), solid content (40, 60, and 70 wt%), resin ratio between two different types of PUSi (PUSi-A: PUSi-B = 70:30, 50:50, and 30:70 wt ratio), crosslinking density, additive, and curing condition. The different pretreatments of substrates include solvent wiping, sandblasting, phosphating, and galvanizing. A commercial paint product (‘yellow topcoat’) was used as a reference for the study of substrates and additives. Several formulations of clearcoat, prepared from the same PUSi resins as the commercial paint product, were mainly used in every experiment. The obtained coatings were tested for their adhesion properties using cross hatch adhesion test, bending test, and humidity resistance test. The film hardness and thermo-mechanical properties were evaluated with König pendulum hardness test and Dynamic Mechanical Analysis (DMA), respectively. Surface energies of all substrates were analyzed with Contact Angle Measurement (CAM). The PUSi-A and PUSi-B resins used in the coating formulations were characterized with Differential Scanning Calorimetry (DSC), Size-Exclusion Chromatography (SEC), and Fourier Transform Infrared Spectroscopy (FT-IR). The results showed a correlation between poor adhesion properties and the relatively low surface energies of some substrates, namely cold-rolled steel (CRS), industrial ACE aluminum, and standard Q aluminum. The use of silane-functional crosslinking agent and silane adhesion promoters in the coatings has greatly enhanced adhesion. The increase in film hardness via increased crosslinking density also did not hinder the adhesion due to the presence of silane groups in the crosslinker. Additionally, increased time and temperature during curing showed positive effects. However, the variation of resin ratio, solid content, and film thickness did not offer significant adhesion improvement in this study. / Adhesionsegenskaperna hos ytbeläggningar är av stor betydelse i färg- och lackindustrin och en djupare förståelse av vidhäftning är av stor betydelse. I detta uppsatsarbete studerades sju parametrar som påverkar vidhäftning av silanmodifierad poly(uretan-urea) (PUSi)-beläggningar på stål- och aluminiumsubstrat. Dessa parametrar inkluderar substrattyp, torr filmtjocklek (20-30 och 60-70 μm), torrhalt (40, 60 och 70 viktprocent), mängdförhållandet mellan två olika typer av PUSi (PUSi-A: PUSi-B = 70:30, 50:50 och 30:70 viktprocent), tvärbindningsdensitet, tillsatsmedel och härdningsbetingelser. Förbehandlingen av substraten inkluderar lösningsmedelsavtorkning, sandblästring, fosfatering och galvanisering. En kommersiell ytbehandlingsprodukt innehållandes gula pigment (gul topplack) användes som referens. Flera formuleringar av klarlack, framställda av samma PUSi-hartser som den kommersiella produkten, användes i det experimentella arbetet. Beläggningarna testades med avseende på deras vidhäftningsegenskaper med ’cross-hatch’-test, böjningstest och fuktbeständighetstest. Filmhårdhet och termomekaniska egenskaper utvärderades med König pendelhårdhetstest respektive Dynamisk Mekanisk Analys (DMA). Ytenergier för alla substrat analyserades med kontaktvinkelmätning (CAM). PUSi-A- och PUSi-B-hartserna som användes i ytbeläggningarna karaktäriserades med Differential Scanning Calorimetry (DSC), Size-Exclusion Chromatography (SEC) och Fourier Transform Infrared Spectroscopy (FT-IR). Resultaten visade en korrelation mellan dålig vidhäftning och låga ytenergier för vissa underlag, främst kallvalsat stål (CRS), industriellt ACE-aluminium och standard Q-aluminium. Användningen av silan-funktionell tvärbindare och en silan-baserad primer förbättrade vidhäftningen avsevärt. Ökningen i filmhårdhet genom högre tvärbindningsdensitet resulterade inte i sämre vidhäftning eftersom tvärbindaren innehåller silan-grupper vilket bidrog till att upprätthålla vidhäftningen. Längre tid och högre temperatur vid härdning gav generellt bättre vidhäftning, liksom tillsats av urea. Att variera mängden bindemedel, torrhalt eller filmtjocklek gav inte någon signifikant påverkan på vidhäftning i denna studie.
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Novel Modifications of Styrene-Butadiene and Isoprene RubberSchmitz, Nathan David 14 November 2022 (has links)
No description available.
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