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Showing 391 to 400 of 414 (0.037 seconds)Spelling suggestions: "subject:"ionic liquid"" "subject:"sonic liquid""
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Room-Temperature Synthesis of Transition Metal Clusters and Main Group Polycations from Ionic LiquidsAhmed, Ejaz 06 December 2011 (has links)
Main group polycations and transition metal clusters had traditionally been synthesized via high-temperature routes by performing reactions in melts or by CTR, at room-temperature or lower temperature by using so-called superacid solvents, and at room-temperature in benzene–GaX3 media. Considering the major problems associated with higher temperature routes (e.g. long annealing time, risk of product decomposition, and low yield) and taking into account the toxicity of benzene and liquid SO2 in room-temperature or lower temperature synthesis, a soft and sustainable chemical approach has been developed, employing a Lewis-acidic IL [bmim]Cl/AlCl3. This new alternative reaction medium has proven to be an excellent solvent system for the single–step synthesis of main group polycations and transition metal clusters. X-ray diffraction and Raman spectroscopy have been used for the structural characterization of the isolated compounds. Physical properties and quantum chemical calculations of some of the compounds have also been carried out.
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Elastomer based composites filled with layered fillers and ionic liquids / Composites élastomères chargés avec des charges lamellaires et des liquides ioniquesLaskowska, Anna 02 December 2014 (has links)
Cette thèse se concentre sur la préparation et l'étude des composites élastomères chargés avec des particules lamellaires et des liquides ioniques. Ces composites sont caractérisés par des propriétés mécaniques améliorées, une diminution du gonflement par les solvants, une faible perméabilité aux gaz ainsi que par une amélioration de la conductivité ionique. Les propriétés de structure et de surface différentes des charges lamellaires, telles que le rapport d'aspect des particules, la surface spécifique et l'activité de surface ont été analysées comme les facteurs impactant le renforcement du caoutchouc nitrile (NBR) et du caoutchouc nitrile carboxylé (XNBR). Une attention particulière a été portée aux systèmes XNBR contenant des hydroxydes doubles lamellaires (MgAI-HDL), qui varient en fonction du rapport Mg / Al et de morphologie de particules. L'application simultanée de MgAI-HDL en tant que charge et en tant qu'agent de réticulation dans XNBR ne fournit pas uniquement un produit écologique sans oxyde de zinc mais également un composite élastomère ionique avec de meilleures propriétés mécaniques, de barrière et de transparence. Cette thèse considère également les applications potentielles des liquides ioniques en tant qu'additifs multifonctionnels dans les composites élastomères afin d'obtenir une bonne dispersion des charges minérales dans une matrice polymère ainsi qu'une amélioration de la conductivité ionique des matériaux composites. La concentration optimale et le type de liquides ioniques ont été sélectionnés pour obtenir un bon compromis entre les propriétés mécaniques et la conductivité des matériaux composites de caoutchouc / This thesis focused on the preparation and the study of elastomer composites filled with layered fillers with improved mechanical properties, decreased swelling in solvents, increased UV stability and reduced gas permeability. The layered minerals were investigated not only in terms of their use as reinforcing fillers for rubbers but also as crosslinking agents, gas barrier and UV stability enhancers. The layered fillers tested belong to a class of cationic clays (natural and synthetic hectorite), anionic clays (hydrotalcites or magnesium aluminum layered double hydroxides MgAI-LDHs) and graphene-based materials. Different structural and surface properties of layered fillers were investigated as factors impacting the reinforcement of acrylonitrile-butadiene rubber (NBR) and carboxylated acrylonitrile-butadiene rubber (XNBR). Special attention has been devoted to the XNBR systems containing MgAI-LDHs varying in Mg / AI ratios, layers aspect ratios and particles morphologies. It was reported that the simultaneous application of MgAI-LDH as a filler and as a crosslinking agent in XNBR provides not only environmentally friendly, zinc-oxide free product but also ionic elastomer composite with improved mechanical, barrier and transparent properties. This thesis considers also the potential application of imidazolium ionic liquids as dispersing agents in rubber matrix, plasticizers and ionic conductivity enhancers. The optimal concentration and type of ionic liquids were selected for obtaining a good compromise between mechanical and conductivity properties of rubber composites
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Magnetic Ionic Liquids in Solutions and EmulsionsBruno, Simon January 2022 (has links)
This research thesis reports experimental work done to design a stable magneticmicroemulsion of ionic liquid in 2-ethylhexyl laurate with the help of an ionic surfactant andan alcohol co-surfactant. The ionic liquids tested were based on a 1,3-dialkylimidazoliumcation with different alkyl chain lengths and a tetrachloroferrate anion ([FeCl4]+) to ensure theemulsion is sensitive to applied magnetic fields. Tests of solubility of these ionic liquids havebeen performed in different solvents and oils. Emulsification tests have been done withdifferent dispersing medium, surfactants as well as with different components quantities tofind the best composition possible. Polarity and chain length of alkyl radicals in ionic liquidsand hydrocarbons in alcohol co-surfactants were proved to affect the emulsification process.Shorter chains, and higher polarity of [C1C2im]+ [FeCl4]- (at 1wt%) combined with [C1C12im]+[FeCl4]- surfactant (between 3 and 5wt%) and non-polar 1-Hexanol co-surfactant (at 10 wt%)were the best combination to create a stable magnetic microemulsion in 2-ethylhexyl laurate. Applications for this microemulsion could vary from improved oil recovery to transport ofmaterials in liquid medium for examples and have all in common a better and tunablecontrollability of the used liquid via magnetic fields. / Denna forskningsuppsats rapporterar experimentellt arbete som gjorts för att designa enstabil magnetisk mikroemulsion av jonisk vätska i 2-EtylHexyllaurat med hjälp av ett jonisktytaktivt ämne och ett alkoholsamverkande ytaktivt ämne. De joniska vätskorna som testadesvar baserade på en 1,3-dialkylimidazoliumkatjon med olika alkylkedjelängder och entetraklorferratanjon ([FeCl4]+) för att säkerställa att emulsionen är känslig för applicerademagnetfält. Tester av lösligheten av dessa joniska vätskor har utförts i olika lösningsmedel ocholjor. Emulgeringstester har gjorts med olika dispergeringsmedium, ytaktiva ämnen samt medolika mängd komponenter för att hitta bästa möjliga sammansättning. Polaritet ochkedjelängd för alkylradikaler i joniska vätskor och kolväten i alkoholsamverkande ytaktivaämnen visade sig påverka emulgeringsprocessen. Kortare kedjor och högre polaritet för[C1C2im]+[FeCl4]- (vid 1 wt%) kombinerat med [C1C12im]+[FeCl4]- ytaktivt ämne (mellan 3 och 5 wt%) och opolär 1-hexanol medytaktivt medel (vid 10 wt% var den bästa kombinationen föratt skapa en stabil magnetisk mikroemulsion i 2-EtylHexyllaurat. Tillämpningar för denna mikroemulsion kan variera från förbättrad oljeutvinning tilltransport av material i flytande medium till exempel och har alla gemensamt en bättre ochavstämbar styrbarhet av den använda vätskan via magnetfält.
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Leaching of copper and gold concentrate in the presence of halidesTogtokhbaatar, Purev-Ochir 22 July 2024 (has links)
Ionometallurgy is a new trend to utilise ionic liquids as alternative green solvents for oxidic and sulfidic copper minerals. It has broad potential for traditional pyrometallurgy and hydrometallurgy. Ionometallurgy utilises ionic liquids (ILs), highly potent complexing ligands (chloride), to process oxide and copper sulfide minerals. This work focused on using the deep eutectic solvents (DES) of ionic liquids, which and provide alternative options for processing various metals, alloys, and concentrates.
For this job, various analytical methods were used to determine the copper concentrate and its residue after leaching (MLA-SEM and XRPD), quantify the elements in the solution (IC and ICP-OES/MS) and explain the oxidation behaviour (CV and UV-Vis spectroscopy). Combining the analytical and electrochemical methods to the leaching experiment provided the control to improve the results and understand its oxidation behaviour.
Chosen DES, Oxaline (ChCl + oxalic acid, 1:1), and Ethaline (ChCl + ethylene glycol, 1:2) were tested and enhanced on the actual copper concentrates with and without oxidative additives (FeCl3 and I2). Those oxidative additives are selected for leaching experiments by their redox potential in Ethaline.
However, there are many acceptable values; the most exciting result related to Ethaline plus iodine was the potential leaching system for chalcopyrite and copper-gold concentrates leaching. Because ion chromatography (IC) and UV-Vis’s analysis confirm iodine oxidizes the Cu+ species quickly in Ethaline. Whilst identical results and oxidation behaviour appeared in chalcocite (Cu2S), chalcopyrite (CuFeS2) and copper-gold concentrates leaching.
During the iodine reduction to iodide in the system, IC proved that chalcopyrite releases the Fe3+, oxidizing the chalcopyrite particles. Also, iodine oxidized the natural gold in copper-gold concentrate successfully, and gold concentration quantified ICP-MS and MLA-SEM proved there is no visible gold in the leaching residue.
Based on the optimal Ethaline + I2 leaching condition, the copper concentrate was carried out with the bottle roller leaching to represent the tank leaching. Thus, DES shows that it has a high potential to be continued to scale up the experiment. Also, water was given to the Ethaline leaching system, and water had a good influence on the leaching due to reducing the viscosity and saving the Ethaline amount. Hence Ethaline plus water is used for the copper ore leaching in the column, and it can be seen that Ethaline + I2 with water (up to 20%) has a high potential to process the low-grade copper sulfide ores.:Acknowledgements
Abstract
Abbreviations
TABLE OF CONTENTS
CHAPTER ONE – INTRODUCTION OF COPPER PROCESSING TECHNOLOGIES
1.1. Overview
1.2. Copper
1.3. Gold
1.4. Hydrometallurgy and pyrometallurgy of copper and gold
1.5. Current copper and gold concentrate processing methods
1.6. An alternative copper concentrate processing method
Summary of chapter 1
CHAPTER TWO – FUNDAMENTALS FOR PROCESS DEVELOPING
2.1. Introduction
2.2. Effect of temperature and stirring in leaching
2.3. Analytical methods and experimental
2.4. Experimental for leaching
2.5. Discussion of experimental errors
CHAPTER THREE: ANALYTICAL EXPERIMENTS FOR LEACHING
3.1. Introduction
3.2. Analysis of copper concentrate
3.3. Cyclic voltammetry
3.4. UV-Vis spectroscopy analysis of target metals
3.5. Metals solubility in DES
3.6. Summary and conclusions
CHAPTER FOUR: FUNDAMENTAL LEACHING EXPERIMENT AND INITIAL INVESTIGATION
4.1. Introduction
4.2. Initial study and fundamental leaching experiments
4.3. Study of mineral oxidation
4.4. Deep eutectic solvents leaching
4.5. Chapter summary and conclusion
CHAPTER FIVE: LEACHING OF MODEL SYSTEMS IN ETHALINE WITH OXIDATIVE ADDITIVES
5.1. Introduction
5.2. Iodine effect on Cu2S and CuS leaching in Ethaline
5.3. Ferric chloride effect on CuS and Cu2S leaching
5.4. Leaching of natural gold in Ethaline with the presence of iodine
5.5. Cyclic voltammetry investigation of Cu+/2+ sulfides in DES
5.6. Chapter summary and conclusion
CHAPTER SIX: LEACHING OF COPPER-GOLD CONCENTRATES IN DES AND WITH OXIDATIVE ADDITIVES
6.1. Introduction
6.2. Effect of ferric chloride (FeCl3)
6.3. Effect of iodine (I2)
6.4. Electrochemical and spectroscopic analysis of copper-gold concentrate leachates
6.6. Chapter summary and conclusion
CHAPTER SEVEN: OVERALL CONCLUSION AND FUTURE WORK
7.1. Overall conclusions
7.2. Recommendations for future research
CHAPTER EIGHT: APPENDIX
8.1. Chemicals and materials
8.2. Appendix
References
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Membranas poliméricas de intercambio iónico con aplicación en pilas de combustible de temperatura intermediaBarjola Ruiz, Arturo 03 May 2023 (has links)
Tesis por compendio / [ES] El desarrollo de membranas poliméricas capaces de actuar como electrolito en pilas de combustible tipo PEMFC a temperaturas intermedias constituye uno de los principales retos para conseguir la generación eficiente de energía por medio de estos dispositivos. Actualmente, las membranas basadas en polímeros perfluorosulfonados como el Nafion® son las más extendidas en pilas de combustible, ya que presentan una buena conductividad protónica además de ser estables mecánica y químicamente. Sin embargo, este tipo de membranas no son capaces de ofrecer buenos rendimientos por encima de 80 ¿C. En este sentido, el objetivo fundamental de esta tesis ha sido la síntesis y caracterización de membranas poliméricas que permitan su potencial utilización en el rango de temperaturas intermedias, por encima de 100 ¿C, donde la cinética de los electrodos y el transporte de protones a través de la membrana mejoran considerablemente, aumentando con ello el rendimiento de la celda.
La investigación llevada a cabo se ha centrado en dos tipos de polímeros: poli(eter-eter-cetona) sulfonada (SPEEK) y polibencimidazol (PBI).
Las membranas basadas en SPEEK ofrecen una elevada conductividad protónica y una buena estabilidad tanto mecánica como química. Si bien, estas propiedades dependen drásticamente de su grado de sulfonación. Así, altos grados de sulfonación resultan en muy buenas conductividades protónicas, aunque por el contrario, originan un excesivo hinchamiento de las membranas provocando un empeoramiento de sus propiedades mecánicas. Además, cuando la temperatura supera los 80 ¿C su conductividad disminuye debido a la deshidratación de la membrana.
La estrategia seguida en este caso para mantener las propiedades mecánicas y la conductividad de las membranas basadas en SPEEK a temperaturas intermedias ha consistido en utilizar un polímero con un índice de intercambio catiónico no excesivamente alto (1.75 meq g-1), el cual ha sido dopado con dos tipos de compuestos organometálicos diferentes de tipo ZIF (Zeolitic Imidazolate Framework ) y con una mezcla de ambos. Este tipo de compuestos constituyen una subclase de los conocidos como Metal Organic Framework (MOF), los cuales adoptan una estructura tipo zeolita donde la parte orgánica está constituida por un anillo de imidazol y el nodo inorgánico es un metal. En este caso Zinc para el Z8 y Cobalto para el Z67. Las membranas compuestas SPEEK-ZIF mejoraron claramente las prestaciones de las de SPEEK puro a temperaturas intermedias.
En base a los resultados anteriores, se seleccionaron las membranas dopadas con ZIF-67 para su evaluación en monocelda donde ofrecieron valores superiores a los de las membranas de SPEEK puro sin la adición de cargas y a los obtenidos con membranas de Nafion®117 a temperaturas superiores a 100 °C.
En el caso de las membranas en base PBI, estas han sido capaces de ofrecer valores elevados de conductividad a altas temperaturas cuando eran dopadas con ácido fosfórico. Sin embargo, la pérdida del ácido por parte de la membrana (leaching) con el tiempo de operación y la degradación que este ácido provoca en los componentes de la celda, hacen que sea necesaria la utilización de otros agentes dopantes no volátiles y menos agresivos capaces de aportar al polímero la conductividad de la que carece. Los líquidos iónicos son sales fundidas a temperatura ambiente que poseen presiones de vapor despreciables y ofrecen buenas conductividades a temperaturas elevadas.
En esta tesis, se prepararon por el método de casting, membranas de PBI conteniendo el líquido iónico 1-butil-3-metil imidazolio bis(trifluorometil sulfonil) imida (BMIM-NTf2) en diferentes porcentajes. Estas membranas alcanzaron a partir de un 10 % wt. de líquido iónico un valor de conductividad del orden de 10-2 S cm-1 a 160 ¿C. Señalando su potencial como electrolito polimérico basado en PBI libre de ácido fosfórico. / [CA] El desenvolupament de membranes polimèriques vàlides per a actuar com a electròlit en piles de combustible tipus PEMFC a temperatures intermèdies. Constitueix un dels reptes principals per aconseguir la generació eficient d'energia amb aquests dispositius. Actualment, les membranes basades en polímers perfluorosulfonats com el Nafion® són les més utilitzades en piles de combustible, ja que presenten una bona conductivitat protònica a més de tindre una bona estabilitat química i mecànica. Tot i això, aquest tipus de membranes no oferixen bons rendiments a temperaturas superiors a 80 ¿C. En aquest sentit, l'objectiu fonamental d'aquesta tesi ha segut la síntesi i caracterització de membranes polimèriques amb les característiques adequades per poder treballar a temperatures intermèdies, per damunt de 100 ¿C. En aquestes condicions la cinètica dels elèctrodes i el transport de protons a través de la membrana milloren considerablement augmentant amb això el rendiment de la cel·la.
La investigació duta a terme s'ha centrat en dos tipus de polímers: poli(eter-eter-cetona) sulfonada (SPEEK) i polibencimidazol (PBI).
Les membranes basades en SPEEK ofereixen una elevada conductivitat protònica i una bona estabilitat tant mecànica com a química. No obstant això, aquestes caracteristiques depenen dràsticament del seu grau de sulfonació. Així, alts graus de sulfonació resulten en molt bones conductivitats protòniques. Encara que per contra, originen un excessiu unflament de les membranes en aigua calenta provocant un empitjorament de les seves propietats mecàniques. A més, quan la temperatura supera els 80 ¿C la seva conductivitat baixa a causa de la deshidratació de la membrana.
L'estratègia seguida en aquest cas per mantenir les propietats mecàniques i la conductivitat de les membranes basades en SPEEK a temperatures intermèdies. Ha segut partir d'un polímer amb un índex d'intercanvi catiònic no gaire alt (1.75 meq g-1). El qual ha segut dopat amb dos tipus de compostos órganometàl.lics diferents de tipus ZIF (Zeolitic Imidazolate Framework) (ZIF) i amb una barreja de tots dos. Aquest tipus de compostos constitueixen una subclasse dels coneguts com a Metal Organic Framework (MOF). Els quals adopten una estructura tipus zeolita on la part orgànica està constituïda per un anell d'imidazol i el node inorgànic és el metall. En aquest cas Zinc per al Z8 i Cobalt per al Z67. Les membranes compostes SPEEK-ZIF van millorar clarament les prestacions de les de SPEEK pur a temperatures intermèdies.
En base als resultats anteriors es van seleccionar les membranes dopades amb ZIF-67 per a la seva avaluació en monocel·la on van oferir valors superiors als de les membranes de SPEEK pur sense l'addició de càrregues i als obtinguts amb membranes de Nafion®117 en les mateixes condicions a temperatures superiors a 100 °C.
En el cas de les membranes en base PBI, aquestes han oferit valors elevats de conductivitat a altes temperatures, quan han segut dopades amb àcid fosfòric. Tot i això, la pèrdua de l'àcid per part de la membrana (leaching) amb el temps d'operació i la degradació que aquest àcid provoca en els components de la cel·la, fan que siga necessària la utilització d'altres agents dopants no volàtils i menys agressius capaços d'aportar al polímer conductivitat iònica. Els líquids iònics són sals foses a temperatura ambient que tenen pressions de vapor molt febles i ofereixen bones conductivitats a temperatures elevades.
En aquesta tesi es van preparar pel mètode de càsting, membranes de PBI contenint el líquid iònic 1-butil-3-metil imidazoli bis(trifluorometil sulfonil) imida (BMIM-NTf2) en diferents percentatges. Aquestes membranes van assolir a partir d'un 10% wt. de líquid iònic un valor de conductivitat de l'ordre de 10-2 S cm-1 a 160 ¿C. Assenyalant el seu potencial com a electròlit polimèric basat en PBI lliure d'àcid fosfòric. / [EN] The development of polymeric membranes capable of acting as an electrolyte in a proton exchange membrane fuel cells (PEMFC) at intermediate temperatures. It constitutes one of the main challenges to achieve efficient energy generation through these kinds of devices. Currently, membranes based on perfluorosulfonated polymers such as Nafion® are the most widespread in fuel cells, since they have good proton conductivity as well as being mechanically and chemically stable. However, these types of membranes are not capable of offering good performance above 80 ¿C. In this sense, the main objective of this thesis has been the synthesis and characterization of polymeric membranes with potential use in the range of intermediate temperatures, above 100 ¿C, where the kinetics of the electrodes and the transport of protons through of the membrane and the performance of the cell are greatly improved.
The research carried out has focused on two types of polymers: sulfonated poly(ether-ether-ketone) (SPEEK) and polybenzimidazole (PBI).
SPEEK-based membranes offer high proton conductivity and good mechanical and chemical stability. However, their properties depend dramatically on its degree of sulfonation. Thus, high degrees of sulfonation result in excellent proton conductivities. On the other hand, the large amount of sulphonic groups in the membrane cause an excessive swelling in hot water, leading to a worsening of their mechanical properties, even reaching its dissolution. Furthermore, as also happens with perfluorosulfonated membranes, when the temperature is increased above 80 ¿C their proton conductivity decreases due to membrane dehydration.
Focused on maintain the mechanical properties and conductivity of SPEEK-based membranes at intermediate temperatures. Membranes have been prepared from a polymer with a not excessively high cation exchange rate (1.75 meq g-1). Which has been doped with two different ZIF-type (Zeolitic Imidazolate Framework) organometallic compounds and with a mixture of both. This type of compounds constitutes a subclass of those known as Metal Organic Framework (MOF). Which adopt a zeolite-type structure where the organic part is made up of an imidazole ring and the inorganic node is the metal. In this case Zinc for Z8 and Cobalt for Z67. SPEEK-ZIF. Composite membranes clearly improved the performance of pure SPEEK membranes at intermediate tempe-ratures.
Based on the previous results, the membranes doped with ZIF-67 were selected for their evaluation in a single fuel cell, where they offered higher values than those of the pure SPEEK membranes without the addition of fillers and those obtained with membranes of Nafion®117 under the same conditions at temperatures above 100 °C.
PBI based membranes, have been capable of offering high conductivity values at high temperatures, when they have been doped with phosphoric acid. However, the loss of acid by the membrane (leaching) with the operation time and the degradation that this acid causes in the cell components. In this sense, it is necessary to explore the use of other non-volatile and less aggressive doping agents capable of providing ionic conductivity to the polymer. Ionic liquids are molten salts at room temperature that have negligible vapor pressures and offer good conductivities at elevated temperatures.
In this thesis, PBI membranes containing the ionic liquid 1-butyl-3-methyl imidazolium bis(trifluoromethyl sulfonyl)imide (BMIM-NTf2) at different percentages were prepared by the casting method. These membranes containing 10 wt.% of ionic liquid reached a conductivity value in the range of 10-2 S cm-1 at 160 ¿C. Noting its potential as a phosphoric acid-free PBI-based polymeric electrolyte. / This work was sponsored by the Ministerio de Economia y
Competitividad (MINECO) under the project ENE/2015-69203-R. The
authors acknowledge the Electron Microscopy Service from Universitat
Politècnica de València for the use of instruments and staff assistance. / Barjola Ruiz, A. (2023). Membranas poliméricas de intercambio iónico con aplicación en pilas de combustible de temperatura intermedia [Tesis doctoral]. Universitat Politècnica de València. https://doi.org/10.4995/Thesis/10251/193081 / Compendio
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Synthese und Charakterisierung von enolisierbaren Barbituratfarbstoffen als Sensoren für NukleinbasenderivateSchade, Alexander 13 December 2016 (has links) (PDF)
In dieser Arbeit wird die Synthese neuartiger 5-monosubstituierter Barbituratfarbstoffe mit elektronenziehenden Substituenten in 5-Position beschrieben. Durch diese Funktionalisierung entstehen schaltbare Farbstoffe mit einer farblosen Ketoform und einer farbigen Enolform. Die Einflüsse verschieden stark elektronenziehender Substituenten sowie unterschiedlich großer konjugierter π-Systeme auf die Keto-Enol-Tautomerie wurden untersucht. Dies erfolgt einerseits mittels Röntgeneinkristallstrukturanalysen der Festkörper und andererseits mit solvatochromen Untersuchungen in Lösung. Durch die Keto-Enol-Tautomerie der Barbituratfarbstoffe wird die Wasserstoffbrücken¬bindungssequenz beim Übergang zwischen Keto- und Enol-Form verändert. Es wurde gezeigt, dass durch Zugabe von Rezeptoren mit komplementärer Wasserstoffbrückenbindungssequenz zur Enol-Form das tautomere Gleichgewicht der Barbitursäuren hin zur Enol-Form verschoben werden kann. Um hierzu verlässliche Aussagen zu erhalten wurden vergleichende Experimente mit N,N´-dialkylierten Barbituratfarbstoffen durchgeführt.
Aufgrund der Synthesestrategie der Barbituratfarbstoffe, welche ausgehend von Barbituratanionen über nukleophile aromatische Substitutionsreaktionen hergestellt wurden, war es zweckmäßig die Nukleophilieparameter der Barbituratanionen zu ermitteln. Dazu wurde der Ansatz von Mayr gewählt und die Nukleophilie von vier Barbituratanionen bestimmt.
Weiterhin konnte in dieser Arbeit die Charakterisierung von ionischen Flüssigkeiten nach der 4-Parameter-Gleichung von Catalán umgesetzt werden. Dabei gelang es erstmal für eine vielzahl verschiedener ionischer Flüssigkeiten die Polarisierbarkeit und Dipolarität getrennt voneinander mit Hilfe zweier solvatochromer Farbstoffe zu ermitteln.
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La dihydrofolate réductase R67, comme une cible d’antibiotiques et biocatalyseur potentielTimchenko, Natalia 12 1900 (has links)
La dihyrofolate réductase de type II R67 (DHFR R67) est une enzyme bactérienne encodée par un plasmide donc aisément transmissible. Elle catalyse la réaction de réduction du dihydrofolate (DHF) en tétrahydrofolate (THFA) essentiel pour la prolifération cellulaire. La DHFR R67 est une enzyme qui dépend du cofacteur NADPH. La DHFR R67 est différente, structurellement et génétiquement, de l’enzyme DHFR chromosomale présente chez tous les organismes et elle est résistante au triméthoprime (TMP) qui est largement utilisé dans les traitements antibactériens chez l’Homme. Aucun inhibiteur sélectif contre la DHFR R67 n’est actuellement répertorié.
Le but de cette étude a été d’identifier des molécules qui pourront inhiber la DHFR R67 sélectivement, sans affecter la DHFR humaine (DHFRh). La vérification de la qualité des essais enzymatiques en conditions déterminées pour le criblage d’inhibiteurs sur plusieurs lectrices à plaques a identifié des appareils appropriés pour l’analyse. L’étude de l’activité enzymatique de la DHFR R67 et de la DHFRh en présence des solvants organiques et liquides ioniques (LIs), comme des co-solvants pour le criblage rationnel d’inhibiteurs, a montré que certains LIs peuvent servir de milieu alternatif pour les essais enzymatiques. Le criblage rationnel basé sur l’approche du design d’un inhibiteur à partir de petites molécules, a révélé des molécules primaires qui inhibent la DHFR R67 de façon faible, mais sélective. Le test des composés biologiquement actifs qui comprennent des petits fragments, a montré l’augmentation de l’affinité entre la DHFR R67 et les composés testés. Trois composés ont été déterminés comme des inhibiteurs sélectifs prometteurs pour la DHFR R67. / Type II R-plasmid encoded dihyrofolate reductase (DHFR), R67 DHFR is a bacterial enzyme that catalyzes the reduction of dihydrofolate (DHF) to tetrahydrofolate (THFA) which is essential for cell proliferation. R67 DHFR is an enzyme that depends on the cofactor NADPH as the hydride donor. R67 DHFR is distinct, structurally and genetically, from E. coli chromosomal DHFR (DHFR Ec) and it provides drug resistance to the widely-administered antibiotic trimethoprim (TMP). No selective inhibitor against R67 DHFR exists currently.
The goal of this study was to discover molecules that can selectively inhibit R67 DHFR, without affecting human DHFR (hDHFR). Verification of the quality of enzyme assays under defined conditions for inhibitor screening on plate readers found several appropriate instruments for analysis. The study of the enzymatic activity of R67 DHFR and hDHFR in the presence of organic solvents and ionic liquids (ILs), as co-solvents for rational screening of inhibitors, showed that ILs can provide alternative media for enzymatic assays. Rational screening based on the approach of fragment-based drug design, revealed primary molecules that inhibited DHFR R67 weakly, but selectively. The testing of more complex compounds with known biological activities gave ligands with increased affinity for R67 DHFR. Three compounds were identified as promising selective inhibitors for R67 DHFR.
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Étude de dispositifs hyperfréquences accordables en technologie microfluidique / Study of tunable microwave devices in microfluidics technologyDiedhiou, Daouda Lamine 20 December 2012 (has links)
La multiplication des besoins des utilisateurs dans le domaine des télécommunications a conduit à une surexploitation du spectre de fréquence. Ceci a engendré la raréfaction des bandes de fréquence conduisant à une nécessité de gestion rationnelle des fréquences. Des contraintes ont été rajoutées aux systèmes d’émission / réception et en particulier sur les filtres pour éviter la saturation des services. Dans cette thèse, les travaux s’orientent surtout vers la conception de résonateurs, de filtres planaires et volumiques (3D) accordables dans le domaine des fréquences millimétriques (>= 30 GHz) en utilisant une nouvelle technique d’accordabilité basée sur des principes microfluidiques. Il s’agit d’une nouvelle approche d’agilité qui consiste à faire circuler de la matière (liquides conducteur, diélectrique ou magnétique) dans un substrat diélectrique par le biais de micro canaux. Le substrat diélectrique utilisé, est une résine SU-8 qui offre une souplesse dans la réalisation des micros canaux et des structures volumiques grâce à son bon facteur de forme (≈ 50%). La circulation de liquides dans le substrat, permet de modifier localement les propriétés électromagnétiques du milieu, ce qui conduit à une modification de la fréquence de résonance du dispositif. / The proliferation of user needs in the field of telecommunications, has led to overexploitation of the frequency spectrum. This led to the scarcity of frequency bands leading to a need for efficient management of frequencies. Constraints were added to the transmitting / receiving systems and in particular on the filters to prevent the saturation of the services. In this thesis, work is mainly oriented towards the design of resonators, planar and volumetric (3D) tunable filters in the field of millimeter wave frequencies (> = 30 GHz) using a new tunable technique which is microfluidic. This is a new approach to agility which consists of circulating the material (conductive, dielectric or magnetic liquids) in a dielectric substrate through micro channels. The dielectric substrate used is a resin SU-8 which provides flexibility in the implementation of microchannels and volumetric structures thanks to its good form factor (≈ 50%). The circulation of fluid in the substrate allows to locally modifying the electromagnetic properties of the medium. This leads to a change in the resonant frequency of the device.
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Organicko-anorganické polymerní nanokompozity / Organic-Inorganic Polymer NanocompositesPonyrko, Sergii January 2016 (has links)
The epoxy based polymer is one of the very common polymers, which was used as a host to create new better materials - nanocomposites. This thesis focused on the improvement of the thermomechanical properties of the epoxy thermosets without deteriorating their existing benefits and on further potential application of this knowledge in "smart" systems. The largest part of this work is dedicated to the reinforcement of epoxy thermosets by in situ generated silica and synthesis of organic-inorganic nanocomposites. Borontrifluoride monoethylamine (BF3MEA) was chosen as effective catalyst for the formation of nanosilica in epoxy-amine network matrix under nonaqueous (non-hydrolytic) sol-gel process. We proposed the mechanism of the nonaqueous sol-gel procedure, studied the structure evolution during the nanocomposite formation, and also determined the structure, morphology and thermomechanical properties of the obtained epoxy-silica nanocomposites. Significant attention in this work was given to the application of coupling agent and ionic liquids to improve compatibilization of the organic matrix and the inorganic part. As a result of the nonaqueous sol-gel process optimization by combination of the tetramethoxysilane (TMOS) and the coupling agent glycidyloxypropyltrimethoxysilane (GTMS), the high-Tg and...
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Evaluation of Electrochemical Storage Systems for Higher Efficiency and Energy DensityMartino, Drew J 25 January 2017 (has links)
Lack of energy storage is a key issue in the development of renewable energy sources. Most renewables, especially solar and wind, when used alone, cannot sustain a reliably constant power output over an extended period of time. These sources generally generate variable amounts of power intermittently, therefore, an efficient electrical energy storage (EES) method is required to better temporally balance power generation to power consumption. One of the more promising methods of electrical energy storage is the unitized regenerative fuel cell (UFRC.) UFRCs are fuel cells that can operate in a charge-discharge cycle, similar to a battery, to store and then to subsequently release power. Power is stored by means of electrolysis while the products of this electrolysis reaction can be recombined as in a normal fuel cell to release the stored power. A major advantage of UFRCs over batteries is that storage capacity can be decoupled from cell power, thus reducing the potential cost and weight of the cell unit. Here we investigate UFRCs based on hydrogen-halogen systems, specifically hydrogen-bromine, which has potential for improved electrode reaction kinetics and hence cheaper catalysts and higher efficiency and energy density. A mathematical model has been developed to analyze this system and determine cell behavior and cycle efficiency under various conditions. The conventional H2-Br2 URFCs, however also so far have utilized Pt catalysts and Nafion membranes. Consequently, a goal of this work was to explore alternate schemes and materials for the H2-Br2 URFC. Thus, three generations of test cells have been created. The first two cells were designed to use a molten bromide salt, ionic liquid or anion exchange membrane as the ion exchange electrolyte with the liquids supported on a porous membrane. This type of system provides the potential to reduce the amount of precious metal catalyst required, or possibly eliminate it altogether. Each cell showed improvement over the previous generation, although the results are preliminary. The final set of results are promising for anion exchange membranes on a cost basis compared Nafion. Another promising energy storage solution involves liquid methanol as an intermediate or as a hydrogen carrier. An alternative to storing high-pressure hydrogen is to produce it on-board/on-site on demand via a methanol electrocatalytic reformer (eCRef), a PEM electrolyzer in which methanol-water coelectrolysis takes place. Methanol handling, storage, and transportation is much easier than that for hydrogen. The hydrogen produced via methanol eCref may then be used in any number of applications, including for energy storage and generation in a standard H2-O2 PEM fuel cell. The mathematical modeling and analysis for an eCref is very similar to that of the HBr URFC. In this work, a comprehensive model for the coelectrolysis of methanol and water into hydrogen is created and compared with experimental data. The performance of the methanol electrolyzer coupled with a H2-O2 fuel cell is then compared for efficiency to that of a direct methanol fuel cell data and was found to be superior. The results suggest that an efficient and small paired eCRef-fuel cell system is potentially be a cheaper and more viable alternative to the standard direct methanol fuel cell. Both the H2-Br2 URFC and the methanol eCref in combination with a H2-O2 fuel cell have significant potential to provide higher energy efficiency and energy density for EES purposes.
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