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Identifying the Spatial Distribution of Homelessness in Summit County, Ohio, using GISRock, Amy Elizabeth 21 April 2005 (has links)
No description available.
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Untersuchungen zur Verträglichkeit und Pharmakokinetik von Itraconazol per inhalationem bei Tauben (Columba livia f. domestica)Hofstetter, Susanne 06 April 2016 (has links) (PDF)
Die Aspergillose ist eine Erkrankung des Respirationstraktes bei Vögeln, vor allem in Gefangenschaft gehaltenen tropischen Papageien, Greifvögeln und Pinguinen. Itraconazol ist hierbei ein häufig eingesetztes Therapeutikum und wird in der Vogelmedizin per os verabreicht (JONES und OROSZ 2000; KELLER 2011). Es zeigten sich gute Wirksamkeiten und Resistenzlagen. Bei über 90 % der Aspergillus fumigatus Isolate aus Wild- und Hausvögeln konnte eine MHK von 0,5 µg/ml eruiert werden (BEERNAERT et al. 2009). Allerdings kam es nach oraler Gabe von Itraconazol zu einem verzögerten Wirkungseintritt sowie, vor allem bei Graupapageien, zu Nebenwirkungen (KRAUTWALD-JUNGHANNS 2011b; PSCHERER 1995). Um ausreichende Wirkspiegel in Lunge und Luftsäcken zu erreichen, ist die Verabreichung einer hohen oralen Dosis notwendig. Dies führt wiederum zu hohen systemischen Konzentrationen und somit zu hohen potenziellen Nebenwirkungen (LUMEIJ et al. 1995). Ein Ziel in der Verbesserung der Therapiemöglichkeiten der Aspergillose ist es daher, einen hohen lokalen Wirkspiegel mit gleichzeitig geringen systemischen Konzentrationen zu erreichen. Ein Ansatz besteht in der inhalativen Verabreichung von z. B. Nanosuspensionen, da hier das Medikament direkt in Lunge/Luftsäcke appliziert werden kann.
Ziel dieser Arbeit war die Sammlung von ersten Daten über den Einsatz einer neuartigen Itraconazol-Nanosuspension zur Verabreichung per inhalationem an Tauben (Columba livia f. domestica). Hierzu wurden in einer ersten Studie pharmakokinetische Spiegel in Blut sowie Lungengewebe nach einmaliger Gabe zweier Konzentrationsstufen (1 % und 10 %) erfasst. In der zweiten Studie wurde die Verträglichkeit sowie die Pharmakokinetik nach 14 tägiger Inhalation der Suspension in den Dosierungsstufen 1 %, 4 % und 10 % evaluiert.
In der ersten Studie wurden die Tauben in zwei Hauptgruppen sowie eine Placebogruppe randomisiert aufgeteilt und erhielten einmalig über 30 min die Itraconazol-Nanosuspension per inhalationem in den Dosierungsstufen 1 % und 10 % bzw. isotonische Natriumchlorid-Lösung. Keines der Tiere zeigte Nebenwirkungen, die in Zusammenhang mit der Medikation gestellt werden konnten. Zur Erstellung eines pharmakokinetischen Profils wurden Blutproben nach 1 h, 4 h, 24 h, 48 h, 72 h und 96 h sowie Lungengewebe von je vier Tauben nach der Euthanasie entnommen und darin die Itraconazol sowie die OH Itraconazol Konzentrationen bestimmt. Alle vorhandenen Werte zu einem gegebenen Zeitpunkt wurden gemittelt, woraus sich ein zusammengesetztes Profil ergab. Nach singulärer Verabreichung zeigten sich geringe systemische Spiegel mit einer Peak-Konzentration von 0,01 µg/ml Itraconazol 4 h post inhalationem bzw. 0,04 µg/ml OH-Itraconazol 24 h post inhalationem bei der 1%igen Nanosuspension und 0,065 µg/ml Itraconazol 24 h nach der Inhalation bzw. 0,365 µg/ml OH Itraconazol 24 h nach der Inhalation bei der 10%igen Dosierungsgruppe. In den Lungen konnten weitaus höhere Spiegel mit 9,1 µg/g Itraconazol und 0,223 µg/g OH Itraconazol 1 h post inhalationem bei der 1%igen Dosierungsgruppe bzw. 91,13 µg/g Itraconazol 1 h nach der Inhalation und 1,081 µg/g OH Itraconazol 4 h nach der Inhalation bei der 10%igen Dosierungsgruppe detektiert werden.
Bei der zweiten Studie wurden die Tiere in drei Hauptgruppen sowie eine Placebogruppe randomisiert aufgeteilt und erhielten 14 Tage lang über je 30 min die Itraconazol-Nanosuspension per inhalationem in den Konzentrationen 1 %, 4 % und 10 % bzw. istotonische Natriumchlorid Lösung. Zur Abklärung der Verträglichkeit wurden die Tiere täglich adspektorisch, sowie alle sieben Tage ausführlich klinisch untersucht. Weiterhin wurden vor und nach der Inhalationsperiode detaillierte Blutuntersuchungen durchgeführt. Bei keiner der Untersuchungen konnten Unverträglichkeitsreaktionen auf das zu testende Medikament festgestellt werden. Auch nach 14 tägiger Gabe konnten im Plasma nur geringe Itraconazol-/OH Itraconazol-Konzentrationen gemessen werden. Aufgrund der teilweise sehr hohen Lungenspiegel (17,14 µg/g bei der 4%igen und 185 µg/g bei der 10%igen Nanosuspension je 24 h post inhalationem) und hohen Eliminationshalbwertszeiten (von über 40 h) sind jedoch hohe und langanhaltende Wirkspiegel am Infektionsort gegeben.
Abschließend kann gesagt werden, dass die erlangten Daten über den Einsatz der neuartigen Itraconazol-Nanosuspension zur Verabreichung per inhalationem bei Tauben keine klinischen Nebenwirkungen erkennen ließen und sich ein effektives pharmakokinetisches Profil zeigte. Mit den hohen lokalen Lungenspiegeln nebst geringen systemischen Konzentrationen und somit geringen zu erwartende Nebenwirkungen erscheint das Medikament durchaus zum Einsatz gegen die Aspergillose bei Vögeln geeignet zu sein.
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Diagnostic des zones périphériques d’arcs électriques et des décharges hors-équilibre / Diagnostic of the electrical arcs’ peripheral areaIzarra, Grégoire de 25 September 2013 (has links)
Jusqu’à récemment, la plupart des applications des arcs électriques mettaient en oeuvre les propriétés du coeur de la colonne, un effort particulier a donc été effectué pour développer des méthodes de caractérisation de ces zones dont la température moyenne est de l’ordre de 10000 K. Avec le développement de la plasma-chimie, le diagnostic des zones périphériques d’arcs et des décharges hors équilibre est devenu un enjeu primordial. Les méthodes de mesure classiques sont mal adaptées pour cette tâche ; le but du travail présenté dans cette thèse se résume donc au développement et à la validation de techniques de diagnostic adaptées à ces zones, dont la température cinétique n’excède pas 8000 K. Deux méthodes innovantes basées sur l’indice de réfraction, l’ombroscopie quantitative et la déflectométrie moirée, ont été étudiées en détails. Les résultats théoriques ainsi que le traitement des données obtenues ont été validés sur un jet de plasma laminaire d’argon, un modèle parfait de zone périphérique. Pour sonder les décharges hors équilibre, l’utilisation du spectre UV de OH a été aussi envisagée. À cette occasion, un programme de simulation de spectre moléculaire a été développé. L’étude des spectres synthétiques obtenus a permis de mettre au point des méthodes de mesure simples de la température rotationnelle et vibrationnelle pour une large gamme de résolution. Une des méthodes développées a été mise en œuvre sur une décharge à faible intensité de courant. On montre que les résultats obtenus par spectroscopie moléculaire sur le radical OH sont très proches de ceux obtenus à l’aide d’une simulation. / Until recently, most of electrical arcs applications were dealing with the properties of the centre of the plasma column, a large number of works was then done to develop diagnostic techniques dedicated to those area where the mean temperature is about 10000 K. With the emergence of plasma chemistery, the diagnostic of arc’s peripheral areas and un-equilibrium discharges become a goal of prime importance. Classical diagnostic techniques are not adapted to those objects where the maximum temperature is around 8000 K; the principal aim of this work was to develop and check diagnostic techniques. Two inovating techniques based on refractive index, the quantitative shadowgraphy and the moiré deflectometry were studied extensively and checked on a laminar plasma jet, a perfect model of arc’s peripheral area. To probe unequilibrium discharge, the use of UV OH spectrum was considered. At this occasion, a spectrum simulation software was written. The study of synthetic spectra lead to the creation of simple measurement methods of rotationnal and vibrationnal OH temperature for a large range of resolution. Those methods was checked on a low power electric discharge. It can be shown that result from molecular spectroscopy are close to those obtained by simulation.
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Neue photokatalytisch aktive Verbundmaterialien zur Eliminierung von pharmazeutischen Wirkstoffen aus WässernSchmoock, Christine 26 November 2014 (has links) (PDF)
Schwerpunkt der vorliegenden Arbeit war die Erstellung, Anpassung und Anwendung einer Methode, die es über die Quantifizierung gebildeter OH-Radikale ermöglicht, sowohl den Einfluss verschiedener Materialmodifikationen (physikalisch dotierte Nanokatalysatoren bzw. Biokompositmaterialien) als auch die Auswirkungen von Matrixbestandteilen oder hydrochemischen Randbedingungen auf die photokatalytische Effizienz der Materialien zu untersuchen. Zudem wurde angestrebt, dass sich die Anwendbarkeit der Methode nicht nur auf die Photokatalyse beschränkt, sondern auch auf andere AOPs ausgeweitet werden kann. Des Weiteren wurde über die Umsetzung der Modellspurenstoffe Carbamazepin und Diclofenac die Wirksamkeit der Katalysatormaterialien untersucht.
Anhand von Versuchen im Labormaßstab werden unter Anwendung der entsprechenden Methode zur Quantifizierung der OH-Radikale bisherige zugrundeliegende Hypothesen zur photokatalytischen Erzeugung von OH-Radikalen (Einfluss von pH und Oberfläche) überprüft und modifiziert. Dabei werden neue Ansätze zur Oberflächenabhängigkeit der OH-Radikalbildung in AOPs (EAOP Diamantelektrode, UV/VUV), die Effizienz von UV/VUV im Vergleich zu UVA-Photokatalyse, die Anwendung von S-Layer-Proteinen in photokatalytischen Biokompositmaterialien sowie eine photokatalytische Umsetzung von Carbamazepin unter Nutzung neuartiger Katalysatoren und Sonnenlicht untersucht.
Mit Hilfe der gewonnenen Erkenntnisse ist es möglich, photokatalytisch aktive Materialien über die OH-Radikalbildungskapazität, als Basisprozess einer photokatalytischen Eliminierung von pharmazeutischen Wirkstoffen aus Wässern, mit Hinblick auf ihre Effizienz und Haltbarkeit zu untersuchen. Daneben bietet das erstellte Konzept zur analytischen Anwendung der OH-Radikalbestimmung neben der Gelegenheit für interessante Vergleiche diverser AOP-Systeme auch die Möglichkeit einer Charakterisierung und Optimierung der einzelnen AOPs. Zudem konnte gezeigt werden, dass die Anwendung von nano-Biokompositmaterialien unter Verwendung von S-Layer-Protein zur Herstellung multifunktionaler photokatalytischer Beschichtungen vielversprechend ist.
Die Ergebnisse der Arbeit unterstreichen, dass die analytische Erfassung von Transformationsprodukten aus photokatalytischen bzw. oxidativen Umsetzungen im Allgemeinen von großer Bedeutung ist, jedoch allein nicht ausreicht, um hinreichend sichere Aussagen über eine mögliche Gefährdung für Mensch bzw. Ökosystem zu erhalten. / The current work was focused on the preparation, adaption and application of an analytical method for the determination of OH radicals for the comparison of the activity of different photocatalytic materials in relation to the material modification (i.e. physically doped nanomaterials or biocomposite materials) and the composition of the water matrix. Furthermore, the application of the OH radical assay should be extended on other AOPs. The degradation of the model compounds carbamazepine and diclofenac was examined to determine the efficiency of the novel photocatalysts.
By using appropriate OH radical assays in laboratory scale experiments, present hypotheses in relation to the photocatalytic formation of OH radicals (i.e. influence of pH or surface) were examined and modified. New approaches on the formation of OH radicals with respect to the surface within AOPs (EAOP diamond electrodes or UV/VUV), the efficiency of UV/VUV in relation to photocatalysis using UVA irradiation, the application of S-layer proteins in biocomposite materials and the photocatalytic degradation of carbamazepine applying novel photocatalysts and natural sunlight were examined.
Based upon the findings, it was possible to compare photocatalytic materials regarding efficiency and stability by means of the capacity to form OH radicals as the base process for the oxidative degradation of pharmaceutical trace compounds. The analytical concept offers the possibility to compare different AOPs and to characterize or optimize a single AOP. Furthermore, it was shown that the implementation of nanoscale biocomposite materials using S-layer proteins for the preparation of multi-functional coatings for photocatalytic applications is promising.
In addition, the current work confirmed that the examination of transformation products of photocatalytic treatment processes or other oxidative reactions is very important. However, the analytical characterization alone is not sufficient to predict potential hazards to human health or the ecosystem with adequate reliability.
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Electrochemical Supercapacitor Investigations Of MnO2 And Mn(OH)2Nayak, Prasant Kumar 07 1900 (has links) (PDF)
Electrical double-layer formed at the electrode/electrolyte interface in combination with electron-transfer reaction can lead to many important applications of electrochemistry, including energy storage devices, namely, batteries, fuel cells and electrochemical supercapacitors. Electrochemical supercapacitors are characterized by their higher power density as compared to batteries and higher energy density than the conventional electrostatic and electrolytic capacitors. Thus, supercapacitors are useful as auxiliary energy storage devices along with primary sources such as batteries or fuel cells for the purpose of power enhancement in short pulse applications. These are expected to be useful in hybrid devices together with batteries or fuel cells, in electric vehicle propulsion systems.
Among the various materials studied for electrochemical supercapacitors, carbonaceous materials, transition metal oxides and conducting polymers are important. Carbon in various forms is used as a double-layer capacitor material, which stores charge by electrostatic charge separation at the electrode/electrolyte interface. The specific capacitance (SC) of high surface area activated carbon is about 100 F g-1 in aqueous electrolytes.
Transition metal oxides have attracted considerable attention as electrode materials for supercapacitors because of the following merits: variable oxidation state, good chemical and electrochemical stability, ease of preparation and convenience in handling. Hydrated RuO2 prepared by sol-gel process exhibited a SC as high as 720 F g-1. However, high cost, low porosity and toxic nature of RuO2 limit its commercialization in supercapacitors. On the otherhand, MnO2 is an attractive electrode material as it is electrochemically active, cheap, environmentally benign, and its resources are abundant in nature. In an early report on the capacitance properties of MnO2 by Lee and Goodenough [J. Solid State Chem. 144 (1999) 220], amorphous hydrous MnO2 synthesized by co-precipitation method exhibited a SC of 203 F g-1 in 2 M KCl
electrolyte. According to the charge-storage mechanism of MnO2 involving MnO2 + M+ + e- ↔ (MnOO)-M+ (where M+ = Li+, Na+, K+ etc.), a SC of 1110 F g-1 is expected over a potential window of 1.0 V. However, SC values in the range of 100-200 F g-1 are reported in the literature. The low values of SC are because of the charge-storage is confined to surface region of MnO2 particles or films. It is desirable to enhance the SC of MnO2 to a value close to the theoretical value. In view of this, attempts are made to enhance the SC of MnO2 by adopting different synthetic procedures such as electrochemical method for depositing MnO2 and also nanostructured mesoporous MnO2 by polyol route, hydrothermal route and sonochemical method in the present studies. As the charge-storage mechanism of MnO2 involves the surface insertion/deinsertion of cations from the electrolyte during discharge/charge processes, respectively, the capacitance properties of MnO2 are studied in various aqueous electrolytes containing monovalent (Na+), bivalent (Mg2+, Ca2+, Sr2+ and Ba2+) and trivalent (La3+) cations. The mass variation occurring at the electrode during the charge/discharge of MnO2 is examined by electrochemical quartz crystal microbalance (EQCM) study. In addition to this, the kinetics of electrodeposition and capacitance properties of Mn(OH)2 are studied by employing EQCM. Also, properties of asymmetric capacitors assembled with Mn(OH)2 as the positive electrode and carbon as the negative electrode are studied and compared with symmetric Mn(OH)2 capacitors. Furthermore, attempts are made to increase the potential window of Co(OH)2 in alkaline and neutral electrolytes. The contents of the thesis by Chapter-wise are given below.
Chapter 1 introduces the importance of electrochemistry in energy storage and conversion, basics of electrochemical power sources, importance of some electroactive materials in electrochemical energy storage, different synthetic procedures for MnO2 and its application in electrochemical supercapacitors. Transition metal oxides are widely studied because of their variable oxidation states, high electrochemical activity, abundance in nature and environmental compatibility. Various reports appeared in the form of open publications on supercapacitor studies of transition metal oxides such as RuO2, MnO2, Fe3O4, Co(OH)2, Ni(OH)2, NiO, etc., are briefly reviewed. The chapter ends with statements on objectives of the studies carried out and reported in the thesis.
Chapter 2 provides experimental procedures and methodologies used for the studies reported in the thesis. Different experimental routes adopted for synthesis of MnO2, Mn(OH)2
and Co(OH)2 used for the studies are described. Also included are brief descriptions of various physicochemical and electrochemical techniques employed for the investigations.
In Chapter 3, MnO2 samples synthesized by various routes such as electrochemical method, polyol route, hydrothermal route and sonochemical method are studied. MnO2 and Mn(OH)2 are simultaneously electrodeposited on the anode and the cathode, respectively, in a galvanostatic electrolysis cell consisting of aqueous Mn(NO3)2 electrolyte. MnO2/SS and Mn(OH)2/SS electrodes are used as the negative and the positive electrodes, respectively, in an asymmetric Mn(OH)2//MnO2 supercapacitor. MnO2 samples are prepared at room temperature and in hydrothermal method at a temperature of 140 ◦C by reduction of KMnO4 with poly(ethylene glycol)-block-poly(propylene glycol)-block-poly(ethylene glycol) (PEG-PPG-PEG) or P123 as a reductant. Also, MnO2 is prepared from KMnO4 by hydrothermal method without using any reducing agent. This procedure requires a temperature of 180 ◦C and 24 h duration. MnO2 is also synthesized with an ultrasonic aided procedure. The electrochemical capacitance properties of MnO2 samples synthesized by various routes are investigated. A maximum SC of 264 F g-1 is obtained at a current density of 0.5 mA cm-2 (1.0 A g-1) for MnO2 prepared by sonochemical method.
The capacitance properties of MnO2 are generally studied in neutral aqueous Na2SO4 electrolytes. In Chapter 4, electrolytes of NaNO3, Mg(NO3)2, Ca(NO3)2, Sr(NO3)2, Ba(NO3)2 and also La(NO3)3 are studied and the results are compared with Na2SO4 electrolyte. Among the alkaline earth salt solutions, higher SC values are obtained in Mg(NO3)2 and Ca(NO3)2 electrolytes than in the rest of the electrolytes. Furthermore, MnO2 exhibits capacitance behaviour in La(NO3)3 solution with enhanced SC in comparison with NaNO3 and Mg(NO3)2 solutions. The SC increases with an increase in charge on the cation (Na+, Mg2+ and La3+). The values of SC measured in Na+, Mg2+ and La3+ electrolytes are 190, 220 and 257 F g-1, respectively at a c.d. of 0.5 mA cm-2 (1.0 A g-1). Rate capabilities are also found to be different in different electrolytes. Specific energy and specific power are calculated and presented as Ragone plots. The presence of divalent and trivalent cations inserted onto MnO2 is identified by X-ray photoelectron spectroscopy. EQCM is employed to monitor the increased mass variations that accompany reversible adsorption/desorption of Na+, Mg2+ and La3+ ions onto MnO2.
In Chapter 5, EQCM has been used to study the kinetics of electrochemical precipitation of Mn(OH)2 on Au-crystal and its capacitance properties. From the EQCM data, it is inferred that
NO3- ions get adsorbed on Au-crystal, and then undergo reduction resulting an increase in pH near the electrode surface. Precipitation of Mn2+ occurs as Mn(OH)2, resulting an increase in mass of the Au-crystal. On charging, Mn(OH)2 undergoes oxidation to MnO2, which exhibits electrochemical supercapacitor behaviour on subjecting to cycling in aqueous Na2SO4 electrolyte. EQCM data indicates the mass variations corresponding to surface insertion/extraction of Na+ ions during discharge/charge cycling of Mn(OH)2 in aqueous Na2SO4 electrolyte.
In Chapter 6, Mn(OH)2 synthesized by precipitation of MnSO4 with NH4OH solution is studied for capacitance properties. A SC of 141 F g-1 is obtained for the Mn(OH)2 at a c.d. of 0.66 A g-1 in 1.0 M Na2SO4 electrolyte in the potential range of 0-1.0 V vs. standard calomel electrode (SCE). Also, carbon electrode made from high surface area carbon exhibits a SC of 158 F g-1 at a c.d. of 0.81 A g-1 in the potential range of 0 to -1.0 V vs. SCE. Asymmetric capacitors are assembled by combining Mn(OH)2 as the positive and carbon as the negative electrodes. The asymmetric capacitor has a SC of 39 F g-1 at a c.d. of 0.42 A g-1 in the operating voltage of 1.8 V. However, a symmetric capacitor consisting of two Mn(OH)2 electrodes provides a SC of 11 F g-1 only at a c.d. of 0.24 A g-1 in an operating voltage of 1.2 V.
In Chapter 7, MnO2 synthesized by reduction of KMnO4 using ethylene glycol is used for fabrication of large area electrodes. Stainless steel (SS) mesh of 3 cm x 3 cm with geometrical area of 18 cm2 is used as current collector. Three symmetrical electrochemical supercapacitors (capacitance of about 100 F per each at a current of 0.2 A) are assembled, each with 11 electrodes positioned in parallel. Six alternate electrodes are stacked as the negative terminal and the other five as the positive terminal. The electrochemical properties of MnO2 supercapacitors are studied by galvanostatic charge-discharge cycling and ac impedance in 1.0 M Na2SO4 electrolyte. Also, the capacitors are combined in parallel as well as in series and the capacitance is evaluated. The practical application of the electrochemical supercapacitors is shown by demonstrating the running of a toy fan connected to the charged capacitor as well as the glowing of LED cell connected to charged supercapacitors connected in series. A parallel combination of batteries and capacitors is also demonstrated.
Capacitor studies of Co(OH)2 over a limited potential window in alkaline electrolytes are reported in the literature. A high potential window of a capacitor material is desirable for using in a device. In Chapter 8, experiments are conducted to understand the reason for a low potential
window for Co(OH)2 as a capacitor material and also to increase its potential window. Experiments are conducted in aqueous NaOH and Na2SO4 electrolytes of various concentrations using electrochemically precipitated Co(OH)2 on stainless steel current collectors in an aqueous Co(NO3)2 electrolyte. Based on the potential window, specific capacitance and specific energy, it is found that 0.05 M NaOH electrolyte is more appropriate for capacitor properties of Co(OH)2 than the rest of the electrolytes studied. Using a Co(OH)2 electrode with a specific mass of 1.0 mg cm-2 in 0.05 M NaOH, a SC of about 380 F g-1 is obtained with a potential window of 0.85 V at a charge-discharge c.d. of 10 A g-1 (10 mA cm-2).
The work presented in this thesis is carried out by the candidate as a part of Ph. D. training program and most of the results have been published in the literature. A list of publications of the candidate is enclosed below. It is hoped that the studies reported here will constitute a worthwhile contribution.
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OH reactivity measurements in the Mediterranean region / Mesures de la réactivité OH dans la région MéditerranéenneZannoni, Nora 30 November 2015 (has links)
La réactivité totale OH est la perte totale du radical hydroxyle (le principal oxydant de l'atmosphère) avec les gaz réactifs dans l'air ambiant. Elle représente la mesure de la quantité totale des réactifs dans un environnement donné.Nous présentons ici un travail expérimental se concentrant sur les améliorations techniques d'une méthode appelée "Comparative Reactivity Method" pour mesurer la réactivité OH su le terrain ainsi que sur des résultats obtenus sur deux sites ciblés dans le bassin méditerranéen.La réactivité OH mesurée était élevée dans les deux sites. Sur le site récepteur en Corse (France) au cours de l'été 2013, nous avons observé que la réactivité OH était en moyenne de 5,5 s-1 (avec un maximum de 17 s-1). Ces mesures ont été comparées avec les observations de composés en phase gazeuse réalisées pendant la campagne. Il a été noté que pendant une période de la campagne, seulement 50% de la réactvité était expliqué par les mesures complémentaires.Lors de mesures dans une forêt de chênes pubescents, émetteurs isoprène, dans le sud de la France, nous avons observé que la réactivité OH maximale était très élevée (69 s-1), en accord avec la réactivité calculée à partir des mesures des gaz réactifs.Ce travail de thèse met en évidence que: (i) le bassin méditerranéen est un fort émetteur de gaz réactifs, (ii) la réactivité mesurée dans ces deux sites de la Méditerranée a été fortement impactée par les émissions biogéniques, (iii) il reste encore beaucoup de composés inconnus associés aux émissions biogéniques primaires et secondaires. A l'avenir, plusieurs approches pourraient etre utilisées pour identifier ces composés inconnus: en couplant la mesure de la réactivité OH avec des mesures de plantes dans des enceintes fermées (composés primaires), études en chambre de vieillissement (composés primaires et secondaires), ainsi que des approches de modélisation. / The total OH reactivity is the total loss rate of the hydroxyl radical with the reactive gases in ambient air. It represents the measure of the total loading of reactants in a given environment.Here we present an experimental work focusing on the technical improvements of the Comparative Reactivity Method to measure the OH reactivity on the field and field measurements of OH reactivity at two targeted sites in the Mediterranean basin.The measured OH reactivity was high at both sites. At a receptor site in Corsica (France) during summer 2013, we observed that the OH reactivity was maximum 17 s-1, on average 5.5 s-1 and during one week only 50% was explained by the complementary measurements in the gas phase.At a forest of downy oak trees, high isoprene emitters, in the south of France, we observed that the OH reactivity was maximum 69 s-1, in agreement with the reactivity calculated from the measurements of reactive gases only during daytime.This thesis work highlights that: (i) the Mediterranean basin is a strong emitter of reactive gases, (ii) the reactivity measured in these two sites in the Mediterranean was strongly impacted by the biogenic emissions, (iii) there are still many unknowns associated to measures of biogenic volatiles primary emitted and secondary produced. Such unknowns might be reduced in the future by coupling the measurement of the OH reactivity with plants enclosures and chambers studies as well as modelling approaches.
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Lewis acid-catalyzed Friedel-Crafts alkylation of vanillyl alcohol for synthesis of Bisguaiacol F - Direct C-OH activation using group IV transition metals with optimization using modern kinetic analysis / Lewissyra-katalyserad Friedel-Craftsalkylering av vanillylalkohol för syntes av Bisguaiacol F - Direkt C-OH aktivering med grupp IV övergångsmetaller och optimering med hjälp av modern kinetisk analysPakarinen, Darius January 2021 (has links)
Detta examensarbete beskriver optimering av ett katalytiskt protokoll för framställning av bisguaiacol F, ett ofarligt alternativ till bisphenol A. Lewissyrliga grupp IV metallkomplex med triflatligander användes som katalysatorer under milda betingelser och kinetisk analys användes för att underlätta optimeringen av reaktionsprotokollet för att öka utbyte och selektivitet för transformationen. Dessutom bidrog kinetiken med mekanistiska insikter och avslöjade att den nukleofila attacken starkt påverkar reaktionens selektivitet och utbyte. / This thesis describes the optimization of catalytic protocol for the formation of bisguaiacol F, a benign alternative to bisphenol A. Lewis acidic group IV metal complexes bearing triflate ligands were used as catalysts under mild conditions and kinetic analysis was used to aid optimization of the reaction protocol to increase the yield and selectivity of the transformation. In addition, the kinetics shed light on the operating mechanisms and revealed that competition of nucleophiles greatly impact selectivity and yield of the reaction.
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Contribution de la combustion du bois à la qualité de l'air et étude de la réactivité atmosphérique des méthoxyphénols en chambre de simulation / Contribution from burning wood to air quality and study of atmospheric reactivity of simulation chamber methoxyphenolsLauraguais, Amélie 27 November 2014 (has links)
Afin de réduire la consommation en énergie fossile et ainsi limiter les émissions de gaz à effet de serre, l’un des objectif du Grenelle de l’Environnement est de porter à 23% la part des énergies renouvelables dans la consommation d’énergie finale en France en 2020. Le bois-énergie représente une alternative à l’utilisation des énergies fossiles, mais c’est également une source de polluants dans l’atmosphère et il est essentiel de déterminer sa contribution potentielle à la dégradation de la qualité de l’air intérieur et extérieur. Au cours de cette thèse, mes travaux de recherche se sont focalisés sur l’étude en chambres de simulation de la dégradation atmosphérique de composés émis par la combustion du bois : les méthoxyphénols. Au Laboratoire de Physico-Chimie de l’Atmosphère (LPCA) de l’Université du Littoral Côte d’Opale (ULCO), des tests ont tout d’abord été réalisés afin de s’assurer que les parois de la chambre, en PMMA (PolyMéthacrylate de Méthyle), n’induisaient pas d’artéfacts lors de son irradiation et des réactions chimiques réalisées avec l’ozone, les radicaux hydroxyles et les radicaux nitrates. La constante de réaction du syringol avec les radicaux OH a été déterminée à (294 ± 3) K. La valeur obtenue (9,65x10⁻¹¹ cm³.molécule⁻¹.s⁻¹) conduit à une durée de vie atmosphérique du syringol d’environ 2 heures pendant la journée. L’oxydation du guaiacol et du syringol par les radicaux hydroxyles a permis d’observer la formation d’aérosols organiques secondaires (AOS) avec des rendements de 0,003 - 0,87 et 0,10 - 0,36, respectivement. L’étude des produits d’oxydation gazeux et particulaires de la réaction du guaiacol avec les radicaux OH a mis en évidence principalement la présence de nitroguaiacols dans la phase gazeuse et nous avons suggéré d’utiliser ces composés comme traceurs de la combustion du bois du fait de leur faible réactivité atmosphérique.Les études cinétiques des réactions des radicaux nitrates avec le guaiacol, le 3-méthoxyphénol et le syringol réalisées à (294 ± 3) K ont permis de déterminer les constantes de réactions correspondantes. Celles-ci se trouvent dans la gamme (1,15 – 21,7) × 10⁻¹¹ cm³.molécule⁻¹.s⁻¹ et les durées de vie associées sont d’environ 2 minutes pendant la nuit. À la Bergische Universität Wuppertal (en Allemagne), la réaction d’une série de composés aromatiques méthoxylés (anisole, 2-méthylanisole, guaiacol, 3-méthoxyphénol, 4-méthoxyphénol, 2-méthoxy-4-méthylphénol, syringol et 2,3-diméthoxyphénol) avec les radicaux hydroxyles a été étudiée. Les constantes des méthoxybenzènes et méthoxyphénols obtenues sont comprises entre (2,12 – 4,64) x 10⁻¹¹ cm³.molécule⁻¹.s⁻¹ et (5,75 - 8,10) x 10⁻¹¹ cm³.molécule⁻¹.s⁻¹, respectivement, ce qui conduit à des durées de vie de 4-8 et 3-2 heures. Pour ces mêmes composés, nous avons également déterminé, les constantes pour leur réaction avec les atomes de chlore qui sont dans la gamme (1,07 – 1,20) x 10⁻¹⁰ cm³.molécule⁻¹.s⁻¹, pour les méthoxybenzènes et (2,71 – 4,73) x 10⁻¹⁰ cm³.molécule⁻¹.s⁻¹ pour les méthoxyphénols. Leurs durées de vie vis-à-vis de cette réaction sont respectivement de 46-52 heures et 12-21 heures. Cette étude sur l’oxydation troposphérique des méthoxyphénols est à notre connaissance la première qui ait été réalisée. Elle a permis de mettre en évidence une réactivité élevée diurne et nocturne de ces composés ainsi que leur contribution à la formation d’AOS. Le bois-énergie est donc à la fois une source d’aérosols primaires mais également secondaires et son utilisation a donc des effets sur l’homme (santé) et l’environnement. / One of the objectives of the Grenelle Environment Forum is to increase the quantity of the renewable energy up to 23% in the final energy consumption in France in 2020, to reduce fossil fuel consumption and thus restrict the level of greenhouse gas emissions. The wood-energy represents an alternative to fossil fuel, but it also a source of atmospheric pollutants. It is necessary to determine its potential contribution to the degradation of air quality (indoor and outdoor). During this PhD, my works focused on the study, in simulation chambers, of the atmospheric degradation of compounds emitted by wood combustion : the methoxyphenols. In the Laboratory of Physical Chemistry of the Atmosphere (LPCA) of the Universite of Littoral-Côte d’Opale (ULCO), tests were carried out to be sure that the walls of the chamber (in PMMA PolyMethacrylate of Methyl) are not a source of artifacts during its irradiation and chemical reactions with ozone, hydroxyl radicals and nitrate radicals. The rate coefficient of the reaction of syringol with OH radicals was determinate at (294 ± 2) K and is 9,65 x 10−¹¹ cm³ molecule−¹ s−¹. Then the atmospheric lifetime was calculated : it is about 2 hours during the day. During the oxidation of guaiacol and syringol, we observed the formation of Secondary Organic Aerosol (SOA) with yields ranging from of 0.003 to 0.87 and from 0.10 to 0.36, respectively. Oxidation products study in the gas- and particle- phases for the reaction of guaiacol with OH radicals showed principally the presence of nitroguaiacols in the gas phase, which may be potential wood combustion tracers due to their low atmospheric reactivity. The kinetic studied of NO₃ radicals with guaiacol, 3-methoxyphenol and syringol were realized at (294 ± 3) K. They were leaded to rate coefficients in the range of (1,15 – 21,7) x 10−¹¹ cm³ molecule−¹ s−¹ and so associated atmospheric lifetimes about 2 minutes, overnight. At the Bergische Universität Wuppertal (Germany), the reaction of a series of methoxylated aromatic compounds (anisole, 2-methylanisole, guaiacol, 3-methoxyphenol, 4-methoxyphenol, 2-methoxy-4-methylphenol, syringol and 2,3-dimethoxyphenol) with hydroxyl radicals were studied leading to the following rate coefficients for methoxybenzenes and metoxyphenols, (2,12 -4,64) x 10−¹¹ cm³ molecule−¹ s−¹ and (5,75 -8,10) x 10−¹¹ cm³ molecule−¹ s−¹, respectively. The estimated atmospheric lifetimes are in the range from 4 to 8 hours and from 2 to 3 hours, for methoxybenzenes and methoxyphenols, respectively. For these compounds, we also determined, the rate coefficients for their reaction with chlorineatoms, which are between (1,07 – 1,20) x 10−¹¹ cm³ molecule−¹ s−¹, for methoxybenzenes, and (2,71 – 4,73) x 10−¹¹ cm³ molecule−¹ s−¹, for methoxyphenols. Thus, their respective atmospheric lifetimes are 46-52 hours and 12-21 hours. This study of tropospheric oxidation of methoxyphenols is to our knowledge the first one. It allows underlining a high reactivity of these compounds during the day and overnight and also their contribution to SOA formation. The wood-energy is thus both a source of primary and secondary aerosols. Its use therefore impacts human health and the environment.
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Traitement de l’acétaldéhyde par décharges électriques impulsionnelles dans les mélanges de gaz atmosphériques : cinétique et efficacité énergétique / Treatment of acetaldehyde by pulsed electric discharges in mixtures of atmospheric gases : kinetic and energy efficiencyFaider, Wilfrid 14 February 2013 (has links)
Cette thèse a pour objet l’analyse de la cinétique de la conversion de l’acétaldéhyde, CH₃CHO, à des concentrations initiales inférieures ou égale à 5000 ppm dans un mélange de gaz à base d’azote et contenant jusqu’à 20% d’oxygène, à température ambiante. L’étude a été réalisée en utilisant trois réacteurs mettant en œuvre des décharges de qualités spatiales différentes. Il s’agit d’un réacteur (UV510) à décharge pré-ionisée (photo-déclenchée) par rayonnement UV produisant un plasma homogène, et de deux réacteurs à décharge à barrière diélectrique (DBD), de géométrie plane (plan-plan) et de géométrie cylindrique (tige-tube) alimentés par impulsion HT et produisant des plasmas non homogènes à faible (plan) ou forte (cylindre) filamentation ; un diagnostic d’imagerie rapide (ns) de la DBD de géométrie plane montre que le plasma peut être considéré quasi-homogène. En s’appuyant sur une modélisation 0D auto-cohérente de la décharge photo-déclenchée, l’étude de la cinétique du mélange N₂/CH₃CHO montre l’importance des états métastables de la molécule d’azote, triplet A³Σu⁺, et singlets (groupe a' ¹∑⁻u, a ¹∏g, et w ¹Δu) dans la dissociation de l’acétaldéhyde. Un coefficient minimum de 6.5×10⁻¹¹ cm³.s⁻¹ est estimé pour le quenching des singlets par l’acétaldéhyde. Le coefficient du triplet est estimé entre 4.2×10⁻¹¹ cm³.s⁻¹ et 6.5×10⁻¹¹ cm³.s⁻¹. Cette dissociation produit des radicaux (CH₃, CH₃CO, HCO, H, O) et des molécules (CH₄, CH₂CO, C₂H₄, C₂H₂, H₂, CO). Ainsi les sous-produits majoritaires mesurés à la fin de la post décharge temporelle sont le méthane, le dihydrogène, le monoxyde de carbone et l’éthane. Les minoritaires sont l’acétylène, l’éthène, l’acétone et l’acétonitrile. Dans les mélanges contenant de l’oxygène, l’importance de la dissociation de CH₃CHO par quenching des états métastables de N₂ diminue au profit des processus d’oxydation par le radical hydroxyle, OH, et l’oxygène atomique, O (³P). La mesure résolue en temps du radical OH dans la post-décharge du réacteur UV510 montre une très forte réactivité de ce radical avec les sous-produits de conversion de l’acétaldéhyde. Une densité maximum de OH égale à 3.5×10¹⁴ cm⁻³ a été mesurée pour 10 % d’oxygène et 5000 ppm d’acétaldéhyde. Le schéma cinétique adopté pour ces mélanges donne, par la modélisation auto-cohérente, une valeur de densité plus élevée. Toutefois, la conversion de l’acétaldéhyde dans N₂/O₂/CH₃CHO est bien expliquée par le modèle, de même que les concentrations produites de méthane et d’éthane. Enfin, la comparaison de l’efficacité énergétique des trois réacteurs étudiés montre que l’homogénéité de la décharge favorise, pour des milieux pauvres en oxygène (moins de 2 %), la conversion de l’acétaldéhyde. / The present study deals with the kinetics analysis of acetaldehyde (CH₃CHO) conversion in electrical discharges with different spatial qualities et at room temperature. Acetaldehyde concentrations up to 5000 ppm in nitrogen-based gas mixture containing up to 20% of oxygen have been investigated. Three different plasma reactors were used: an UV510 reactor producing a homogeneous plasma thanks to a pre-ionization by UV radiation (photo-triggered), a plane-to-plane and a rod-tube dielectric barrier discharges (DBDs) reactors, In both DBDs reactors discharges were driven by high voltage pulses allowing the production of weakly inhomogeneous plasma in the plane geometry and highly filamentary discharges in the cylindrical one. A high speed imaging diagnostic (ns range) of the plane-to-plane DBD shows that the plasma can be considered quasi-homogeneous. Based on a self-consistent 0D model, the kinetics study of the N₂/CH₃CHO mixture conversion in the photo-triggered discharge shows the importance of nitrogen molecule metastable states , i.e. the triplet A³Σu⁺ and the singlets group a' ¹∑⁻u, a ¹∏g, et w ¹Δu, in the acetaldehyde dissociation process. A minimum coefficient of 6.5×10⁻¹¹ cm³.s⁻¹ has been estimated for the quenching of N₂ singlets state by acetaldehyde. For the triplet states quenching the coefficient of has been evaluated between 4.2×10⁻¹¹ cm³.s⁻¹ and 6.5×10⁻¹¹ cm³.s⁻¹. This dissociation process produces radicals as CH₃, CH₃CO, HCO, H, O, and molecules like CH₄, CH₂CO, C₂H₄, C₂H₂, H₂, CO. Thus, the major by-products detected at the end of the post-discharge time are methane, hydrogen, carbon monoxide and ethane; smaller amounts of acetylene, ethene, acetone and acetonitrile were also detected. In containing oxygen mixtures, the importance of the CH3CHO dissociation processes due to N₂ metastable states quenching of decreases in favor of oxidation processes promoted by the hydroxyl radical, OH, and atomic oxygen, O (³P). Time-resolved measurements of the OH radical in the photo-triggered post-discharge show a very high reactivity of this radical with the by-products of acetaldehyde conversion. A maximum density of OH radical equal to 3.5×10¹⁴ cm⁻³ was measured for 10% oxygen and 5000 ppm of acetaldehyde. The kinetic scheme adopted in the self-consistent model for the same gas mixture gives a higher density value; by the way the model is in good agreement with the acetaldehyde conversion in N₂/O₂/CH₃CHO mixtures, as well as with the methane and ethane produced concentrations. Finally, the comparison of the three studied reactors energy efficiency shows that, for low oxygen content (less than 2%), the homogeneity of the discharge promotes the acetaldehyde conversion.
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Papel dos receptores 5-HT1A do Núcleo Mediano da Rafe de ratos nas consequências comportamentais da exposição ao estresse de nado forçado / Role of 5-HT1A receptors of the Median Raphe Nucleus of rats in the behavioral consequences of exposure to forced swim stressTokumoto, Alline Mayumi 26 February 2010 (has links)
A exposição a estressores incontroláveis leva a alterações comportamentais e bioquímicas significativas que parecem envolver um mau funcionamento da via serotoninérgica Núcleo Mediano da Rafe (NMnR)-Hipocampo Dorsal, mediada por receptores de tipo 5-HT1A (5-HT1aR), sugerindo que as associações aprendidas, relacionadas à exposição ao estresse e suas conseqüências emocionais, não foram desconectadas. Estudos na literatura sugerem que processos de memória são tempo-dependentes e podem ser alterados pela administração de drogas no momento de sua formação ou evocação. Assim, o objetivo do trabalho foi investigar se a interferência na neurotransmissão serotoninérgica mediada por 5-HT1aR, no NMnR, em diferentes momentos com relação à exposição ao estresse de nado forçado pode prevenir ou atenuar os efeitos desse estressor. Ratos Wistar machos (n=5-13/grupo) receberam duas injeções intra-NMnR de Salina (Sal), 8-OH-DPAT (DPAT; 3nmoles/0,2µL; agonista 5-HT1aR) e/ou WAY100635 (WAY; 0,3nmoles/0,2µL; antagonista 5-HT1aR) compondo os grupos experimentais: Sal+Sal, Sal+DPAT, WAY+Sal, WAY+DPAT. As drogas foram administradas em três condições experimentais distintas: antes da pré-exposição ao nado forçado; antes do teste em animais submetidos à pré-exposição; ou antes do teste em animais não pré-expostos. O teste ocorreu 24 horas após a pré-exposição. O tempo de latência para o primeiro episódio de imobilidade (LAT) e o tempo total gasto imóvel (IMO) foram registrados. Somente animais com sítios de injeção confirmados foram usados na análise (ANOVA de uma via seguida por teste post hoc de Duncan). Nossos resultados sugerem que o tratamento com 8-OH-DPAT antes da pré-exposição ou do teste em animais estressados previne ou atenua, respectivamente, as consequências comportamentais da exposição prévia ao estresse de nado forçado. Além disso, nossos dados sugerem que tanto a interferência no processo de aquisição da memória aversiva quanto da evocação da mesma são em parte mediados por 5-HT1aR. / Exposure to uncontrollable stressors leads to significant behavioral and biochemical changes which has been associated to mal functioning of the Median Raphe Nucleus (NMnR) Dorsal Hippocampus serotonergic pathway, mediated by receptor type 5-HT1A (5-HT1aR), suggesting that learned associations related to exposure to stress and emotional consequences from such exposure were not disconnected. Published studies suggest that memory processes are time-dependent and can be changed by the administration of drugs at the time of its formation or retrieval. The objective of the present study was to investigate whether interference with serotonergic neurotransmission mediated by 5-HT1aR in NMnR at different times in relation to exposure to forced swim stress could prevent or reduce the effects of this stressor. Male Wistar rats (n = 5-13/grupo) received two intra-NMnR injections of Saline (Sal), 8-OH-DPAT (DPAT; 3nmoles / 0.2 mL; 5-HT1aR agonist) and / or WAY100635 (WAY; 0.3 nmol / 0.2 mL; 5-HT1aR antagonist) composing the experimental groups: Sal + Sal, Sal + DPAT, WAY + Sal, WAY + DPAT. The drugs were administered in three different experimental conditions: before preexposure to forced swim; before testing in animals subjected to preexposure; or before testing in animals not preexposed. The test occurred 24 hours after preexposure. The latency to the first episode of immobility (LAT) and the total time spent immobile e (IMO) were registered. Only animals who had their sites of injection confirmed were used in the analysis (one-way ANOVA followed by post hoc test Duncan). Our results suggest that treatment with 8-OH-DPAT before preexposure or testing in stressed animals prevents or attenuates, respectively, the behavioral consequences of prior exposure to forced swim stress. Furthermore, our data suggest that both the interference in the acquisition of aversive memory, and the retrieval of the same are partly mediated by 5-HT1aR.
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