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Croissance et réactivité du silicène / Growth and reactivity of siliceneTchalala, Mohamed Rachid 24 October 2014 (has links)
L’objet de cette thèse est l’étude de la croissance de silicène sur des substrats d’argent,ainsi que l’étude de sa réactivité vis-à-vis de l’oxygène. La croissance a été réalisée sous ultra-vide et contrôlée par spectroscopie d’électrons Auger (AES) et par diffraction d’électrons lents (LEED). Les structures obtenues et leurs réactivités à l’oxygène ont été étudiées par microscopie à champ proche (STM et nc-AFM) et par spectroscopie de photoémission résolue en angle (ARPES). Nous avons étudié la structure interne des nano-rubans de silicène auto-assemblés sur un substrat d’Ag(110). Sur Ag(111) nous obtenons un feuillet de silicène qui présente différentes structures en fonction de la température du substrat. L’étude de la réactivité des rubans et des feuillets a montré que le silicène formé sur substrat d’argent est relativement stable vis-à-vis de l’oxygène ce qui ouvre des perspectives de fonctionnalisation du silicène. La dernière partie de cette thèse concerne la synthèse de feuillets de silicium par voie chimique. Nous avons mis au point une nouvelle méthode prometteuse de synthèse chimique qui nous a permis de synthétiser des feuillets de silicium de structure graphitique. / The objective of this thesis is the study of the growth of silicene on silver substrates as well as its reactivity towards the oxygen. The growth was performed under ultra-high vacuum and controlled by Auger electrons spectroscopy (AES) and low energy electrons diffraction (LEED). The obtained structures and their relativities towards the oxygen were studied by near field microscopy (STM and nc-AFM) and by angle resolved electrons photoemission spectroscopy (ARPES). We have studied the internal structure of the selfassembled silicene nanoribbons on Ag(110) substrate. On Ag(111), we have obtained a silicene sheet presenting different structures versus the temperature of the substrate. The reactivity of silicene nanoribbons and sheets grown on silver show that silicene is relatively stable towards the oxygen which opens a new perspectives of functionalization of the silicene. The last part of this thesis concerns the synthesis of silicone sheets by chemical process. We have develpped a new promising process of chemical synthesis which allowed us to synthesize silicon sheets with graphitic structure.
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Bevisfrågor vid användning av elektroniska underskrifter : Har Högsta domstolen missförstått en avgörande punkt? / Evidentiary requirements for electronic signatures : Did the Supreme Court misunderstand something crucial?Bjerkhaug, Mathias January 2021 (has links)
No description available.
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AES - kryptering med cuda : Skillnader i beräkningshastighet mellan AES-krypteringsmetoderna ECB och CTR vid implementering med Cuda-ramverket.Vidén, Pontus, Henningsson, Viktor January 2020 (has links)
Purpose – The purpose of this study is partly to illustrate how the AES encryption methods ECB and CTR affect the computational speed when using the GPGPU framework Cuda, but also to clarify the advantages and disadvantages between the different AES encryption modes. Method – A preliminary study was conducted to obtain empirical data on the AES encryption modes ECB and CTR. Data from the study has been analyzed and compared to determine the various aspects of the AES encryption modes and to create a basis for determining the advantages and disadvantages between them. The preliminary study has been carried out systematically by finding scientific works by searching databases within the subject. An experiment has been used as a method to be able to extract execution time data for the GPGPU framework Cuda when processing the AES encryption modes. Experiment were chosen as a method to gain control over the variables included in the study and to see how these variables change when they are consciously influenced. Findings – The findings of the preliminary study show that CTR is more secure than the ECB, but also considerably more complex, which can lead to integrity risks when implementation is done incorrectly. In the experiment, computational speeds are produced when the CPU memory sends to the GPU memory, the encryption on the GPU and how long it takes for the GPU memory to send to the CPU memory. This is done for both CTR and ECB in encryption and decryption. The result of the analysis shows that the ECB is faster than CTR in encryption and decryption. The calculation speed is higher with the ECB compared to the CTR. Implications – The experiment shows that CTR is slower than the ECB. But the most amount of time spent in encryption for both modes are the transfers between the CPU memory and the GPU memory. Limitations – The file sizes of the files tested only goes up to about 1 gigabyte which gave small computation times.
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Spectroscopic evaluation of stability and homogeneity of formulated lubricant / Spektroskopisk utvärdering av stabilitet och homogenitet hos smörjmedelVranjkovina, Amir January 2019 (has links)
Lubricant is a common name for a large group of products that are essential for almost every engine or other machinery equipment that include mechanical part movements. Their main application is reduction of the friction between two rubbing surfaces by interposing a lubricating film between them. Other important functions of lubricants beside lubrication are; heat transfer, energy efficiency enhancement, corrosion and oxidation protection. All types of lubricants mainly consist of base oil and additives. Base oils are mainly hydrocarbon compounds, while additives are various chemical compounds added to the base oil to enhance some of the already existing properties, or to impose new properties that are beneficial for application purposes. During the storage period, where different storage conditions can occur, many of the requirements for lubricants chemical and physical stability needs to be fulfilled. Inappropriate storage conditions can cause physical and chemical changes in lubricants, which can make them unusable for the intended application. The effects of different storage conditions on lubricants stability were investigated in this work. The experimental part of this project was conducted at Fuchs Lubricants Sweden AB. At the beginning of the experiment, twelve 2L high density polyethylene bottles (HDPE) filled with the lubricant, were divided into three groups. The first group consisted of four closed HDPE bottles previously filled with the lubricant that were stored at 9 °C, 22 °C, 45 °C and 80 °C. The second and the third group consisted also of four open bottles and four bottles with added distilled water stored at the same storage temperatures. The amount of lubricant was approximately the same in all bottles. At different time intervals sample aliquots from the top, middle and the bottom layer were taken from these bottles and analyzed. The effects of different storage conditions on the lubricant’s stability and homogeneity were acquired by two distinctive spectroscopic methods. Inductively Coupled Plasma Atomic Emission Spectroscopy (ICP-AES) was used for elemental composition analysis, while the Fourier Transform Infrared (FTIR) Spectroscopy was used for evaluation of chemical changes on molecular level. Results from ICP-AES analyses showed almost homogeneous elemental distribution, virtually unaffected by different storage conditions in all sample bottles. Results from FTIR analyses showed that observed changes in absorption peaks (673, 863, 972. and 1267 cm-1) took place almost simultaneously at all three layers in all bottles stored at four different temperatures. These results suggest that the analyzed lubricant was stable and homogeneous for the observed period. The lowest storage temperature caused minimal changes in the lubricant and can be considered as optimal storage temperature for this product. It was also observed that increased temperature, direct exposure to oxygen and presence of water catalytically affected the rate of these changes. A part of this project was to validate the method used for ICP analysis. For this purpose, the following method performance parameters were investigated: linearity, precision, accuracy, Limit of detection (LOD) and Limit of quantification (LOQ). The obtained results showed that linearity of the method for all elements, in the used standard, was confirmed based on the set criteria. Precision and accuracy were tested in repeatability conditions and at four different concentration levels. The obtained results showed that accuracy of the method increased with concentration, and was highest for 50 ppm, for almost all elements. The highest precision (< 2 % RSD), for almost all elements was obtained for the concentration of 25 ppm. The LOD values were between 0.01 and 1.42 ppm while calculated LOQ values were between 0.04 and 4.73 ppm. / Smörjmedel är det gemensamma namnet för en stor produktgrupp som är nödvändig för nästan alla motorer eller annan maskinutrustning som inkluderar mekaniska delrörelser. Deras huvudsakliga tillämpning är att minska friktionen mellan två ytor i rörelse genom att införa en smörjfilm mellan dem. Andra viktiga funktioner förutom smörjning är; värmeöverföring, energieffektivisering, korrosion-och oxidationsskydd. Alla typer av smörjmedel består huvudsakligen av basolja och tillsatser. Basoljor är huvudsakligen kolväteföreningar medan tillsatser är olika kemiska föreningar som läggs till basoljan för att förbättra några av de befintliga egenskaperna eller att införa nya egenskaper som är fördelaktiga för applikationsändamål. Under lagringsperioden, där olika lagringsförhållanden kan uppstå, måste många av kraven på smörjmedlens kemiska och fysikaliska stabilitet uppfyllas. Olämpliga lagringsförhållanden kan orsaka fysiska och kemiska förändringar i smörjmedlen som kan göra dem oanvändbara för avsedd användning. Effekterna av olika lagringsförhållanden på smörjmedelstabilitet undersöktes i detta arbete. Experimentell del av detta projekt genomfördes hos Fuchs Lubricants Sweden AB. I början av experimentet, tolv 2L högdensitetspolyetenflaskor (HDPE) fyllda med smörjmedlet, uppdelades i tre grupper. Den första gruppen bestod av fyra slutna HDPE-flaskor som ifylldes med smörjmedlet och som lagrades vid 9 ° C, 22 ° C, 45 ° C och 80 ° C. Den andra och den tredje gruppen bestod också av fyra öppna flaskor och fyra flaskor med tillsatt destillerat vatten lagrat vid samma lagringstemperaturer. Mängden av smörjmedel var ungefär lika i alla flaskor. Vid olika tidpunkter togs prov från topp-mitten-och bottenskiktet från dessa flaskor och analyserades. Effekterna av olika lagringsförhållanden för smörjmedelsstabiliteten och homogeniteten förvärvades genom två distinkta spektroskopiska metoder. Induktivt kopplad plasma atomemissions-spektroskopi (ICP-AES) användes för elementsammansättningsanalys medan Fourier transform infraröd spektroskopi (FTIR) användes för utvärdering av kemiska förändringar på molekylär nivå. Resultat från ICP-AES-analyser visade nästan homogen fördelning av element, opåverkad av olika lagringsförhållanden i alla provflaskor. Resultat från FTIR-analyser visade att observerade förändringar i absorptionstoppar (673, 863, 972 och 1267 cm-1) inträffade nästan samtidigt i alla tre skikten i flaskorna lagrade vid fyra olika temperaturer. Dessa resultat tyder på att det analyserade smörjmedlet var stabilt och homogent under den observerade perioden. Den lägsta lagringstemperaturen orsakade minimala förändringar i smörjmedlet och kan betraktas som den optimala lagringstemperaturen för denna produkt. Resultatet visade också att ökad temperatur, direkt exponering för syre och närvaro av vatten hade katalytiskt påverkat graden av dessa förändringar. En del av detta projekt var att validera metoden som används för ICP-analys. För detta ändamål undersöktes följande metodprestanda-parametrar: linjäritet, precision, noggrannhet, detektionsgräns (LOD) och kvantifieringsgräns (LOQ). De erhållna resultaten visade att linjäriteten för metoden, för alla element, i den använda standarden bekräftades baserat på uppsatta kriterier. Precision och noggrannhet testades i repeterbarhetsförhållanden och vid fyra olika koncentrationsnivåer. De erhållna resultaten visade att metodens noggrannhet ökade med koncentration och var högst för 50 ppm, för nästan alla element. Den högsta precisionen (<2% RSD), för nästan alla element, erhölls för koncentrationen av 25 ppm. LOD-värdena var mellan 0.01 och 1.42 ppm medan beräknade LOQ-värden var mellan 0.04 och 4.73 ppm.
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Détermination du béryllium dans les cheveux humains non exposés, les poils et les os de souris exposées à des poussières de bérylliumDrolet-Vives, Katherine January 2009 (has links)
Mémoire numérisé par la Division de la gestion de documents et des archives de l'Université de Montréal.
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Determinação de nutrientes e contaminantes Inorgânicos em café solúvel por espectrometria de emissão atômica com plasma de argônio induzido (ICP-AES) / Determination of nutrients and inorganic contaminants in soluble coffee by atomic emission spectrometry with inductively-coupled plasma (ICP-AES)Santos, Eder José dos 07 April 1999 (has links)
A produção industrial do café solúvel brasileiro destina-se, na sua maior parte, ao mercado externo, constituindo-se em um importante ítem de exportação do país. O objetivo do presente trabalho foi o desenvolvimento e aprimoramento de métodos de análise química adequados à investigação de componentes inorgânicos em café solúvel. Inicialmente foi definido o método de mineralização das amostras através da avaliação de 6 procedimentos diferentes, classificados em 3 classes: (I) microondas focalizado; (II) via úmida convencional e (III) sistema sob pressão em frascos de decomposição com tampas (bombas de teflon). As determinações dos nutrientes e contaminantes inorgânicos: Na, K, Mg, Al, P, S, Ca, Mn, Fe, Ni, Cu, Zn, Cd, Sb, Pb, Cr, Sn, As, Se e Hg, após a utilização do procedimento de mineralização que emprega o sistema de microondas focalizado com os reagentes HNO3 e H2O2, foram realizadas por espectrometria de emissão atômica com plasma induzido, ICP-AES (da nomenclatura inglesa Inductively Coupled Plasma-Atomic Emission Spectrometry). Interferências de matriz e/ou espectrais foram detectadas nas determinações de Pb, Cr, Sn, As, Se e Hg. No caso do Sn, optou-se pela correção da radiação de fundo através do software do equipamento, pois outras linhas de emissão deste analito eram menos sensíveis e igualmente sujeitas a interferências espectrais. Para o Pb e Cr a escolha de comprimentos de ondas alternativos eliminou os problemas de interferências espectrais devido à matriz das amostras. A aplicação das técnicas de geração de hidretos para o As e Se e a geração de vapor frio para o Hg, possibilitaram as determinações destes analitos nas amostras de café solúvel, aumentando a sensibilidade das análises. Os resultados obtidos para os teores dos nutrientes e contaminantes inorgânicos em 21 amostras de café solúvel disponíveis no mercado brasileiro, foram aceitáveis para o consumo humano, tanto no aspecto nutricional como toxicológico, com exceção de uma amostra com teor de Cr igual a 0,52 ± 0,02 mgKg-1, acima do permitido pela legislação brasileira que fixa o valor máximo de 0,10 mgKg-1. A aplicação de técnicas estatísticas, análise de clusters hierárquicos e componentes principais aos resultados obtidos, possibilitaram investigar a variabilidade das composições minerais e classificar grupos de amostras similares. O emprego da técnica instrumental ICP-AES através do sistema de nebulização convencional e a utilização do sistema de geração de hidretos e vapor frio, mostraram-se adequados para as determinações dos nutrientes e contaminantes inorgânicos em café solúvel, uma vez que níveis de precisão e exatidão aceitáveis foram obtidos. / The production of Brazilian soluble coffee is almost entirely destined for exporting. Therefore, the objective of this work was the development and the establishment of appropriate methods of chemical analysis of inorganic components in soluble coffee. Firstly, the appropriate digestion procedure for soluble coffee samples was defined through the evaluation of six different digestion techniques that were classified into three groups: (I) focused microwave system, (II) conventional wet digestion and (III) pressure digestion system in teflon bombs. The determinations of nutrients and toxic elements: Na, K, Mg, Al, P, S, Ca, Mn, Fe, Ni, Cu, Zn, Cd, Sb, Pb, Cr, Sn, As, Se, and Hg after the utilization of the focused microwave system with HNO3 and H2O2 reagents, were made by Inductively Coupled Plasma Atomic Emission Spectrometry (ICP-AES) technique. Matrix and spectral interferences were detected in the determination of Pb, Cr, Sn, As, Se and Hg. Correction of the background enhancement by the equipment software was made in the determination of Sn, as other analytical lines were unsuitable for this application. For Pb and Cr, the choice of other analytical lines eliminated the problem of matrix and spectral interferences. The application of the hydride generation technique for As and Se and cold atomic vapour with ICP-AES for Hg, were suitable methods to determine these analytes in soluble coffee samples with increased sensitivity of the analysis. The results obtained of nutrients and toxic elements in twenty-one samples of soluble coffee collected from Brazilian market were acceptable to human consumption at nutritional and toxic level with exception of a sample with 0,52 ± 0,02 mgKg-1 of Cr, above the value specified in Brazilian Food Legislation, that fixes the maximum Cr contend in 0,10 mgKg-1. The aplication of statistical techniques analysis of principal components and the hierarchical cluster on the results of mineral compositions, enabled to investigate the variability in the composition and to classify groups of similar samples. The application of the ICP-AES technique using the conventional pneumatic nebulization system, the hydride generation technique and the cold vapour for Hg were suitable to determine the nutrients and toxic elements in soluble coffee, as they provided acceptable results indicating accuracy and precision.
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Synthèse et caractérisation de nanomatériaux hybrides de type Au@SiO2 : potentialités dans le domaine de la nanomédecine / Synthesis and characterization of hybrid Au@SiO2 nanomaterials with potentialities in nanomedicineSoulé, Samantha 10 December 2015 (has links)
Depuis une décennie, dans le domaine de la nanomédecine, les recherches s’orientent de plus en plus vers l’élaboration de nanomatériaux multifonctionnels avec l’espoir d’améliorer la précision des diagnostics ou encore l’efficacité des traitements à mettre en place. Dans ce contexte, notre travail visait à mettre en œuvre des nanoparticules hybrides Au@SiO2 de type cœur-coquille associant les propriétés photothermiques de la phase métallique à la fonction délivrance de médicaments du réseau inorganique poreux. Avec le greffage d’obturateurs organiques à l’entrée des pores de la silice, ces assemblages deviennent dès lors de véritables nanosystèmes « mécanisés ». La première partie du travail a donc concerné la synthèse du cœur du nanomatériau (nanoparticules d’or creuses appelées « nanoshells ») réalisée par un procédé de remplacement galvanique. L’influence des paramètres de synthèse sur la morphologie et la structure, sur l’état de surface ainsi que sur les propriétés optiques des nanoparticules a été largement discutée ici. Après la coupe transverse des nanoshells ainsi élaborées, les techniques d’analyse de surface (XPS, AES) ont permis de préciser la formation d’un alliage Ag-Au de composition hétérogène. L’élaboration d’une coquille de silice mésoporeuse autour des cœurs métalliques a ensuite été réalisée. Après avoir démontré le potentiel de ces nanoparticules pour le confinement moléculaire, les nano-objets Au@SiO2 ont finalement été fonctionnalisés par des assemblages supramoléculaires constitués d’un diaminoalcoxysilane (greffé à la surface) en interaction avec un macrocycle. Le couplage spécifique des techniques XPS et RMN a permis de caractériser précisément la fonctionnalisation. Une ouverture à ce travail a été initiée vers des systèmes davantage biocompatibles avec l’élaboration cette fois-ci d’une coquille hybride polymère/silice. Une première série de tests in vitro a permis d’explorer l’impact et l’interaction des nanoparticules avec des cellules de type HaCaT et a montré tout le potentiel de la poly-L-lysine dans cette approche. Cette étude originale propose de nouvelles informations dans l’étude des systèmes nanostructurés avec une caractérisation physico-chimique appropriée qui signale l’importance des phénomènes aux interfaces au sein de l’architecture hybride. Les perspectives visent maintenant à une optimisation fonctionnelle de ces nano-objets pour des applications en nanomédecine. / Nowadays, in the field of nanomedecine, the major challenge is to design multifunctional nanomaterials in order to improve diagnosis and treatment efficiency. In this context, our work has concerned the conception of hybrid Au@SiO2 core-shell nanoparticles combining the photothermal properties of the gold core and the drug delivery function associated with the inorganic porous network. The entrance pore functionalization with gatekeepers leads finally to mecanized nanosystems. The first part of the work has concerned the core material synthesis (hollow gold nanoparticles called « nanoshells ») which has been achieved by a galvanic replacement reaction. The influence of synthesis parameters on the structure, the morphology and on the optical properties has been studied. Moreover, the analysis of a nanoparticle cross-section by XPS and AES has evidenced the formation of a heterogeneous Ag-Au alloy. Then, the growth of a mesoporous silica shell on the metal cores has been conducted leading to Au@SiO2 nanomaterials. After demonstrating the potential of these core-shell nanoparticles for hosting molecules, the nano-objects have been functionalized with supramolecular nanovalves based on a diaminoalkoxysilane (grafted on the silica surface) interacting with a macrocycle. The combination of XPS and NMR allowed us to characterize precisely the functionalization. In a last section, we have been interested in the design of biocompatible systems with the elaboration of a hybrid polymer/silica shell. The in vitro effect and interaction of nanoparticles with HaCaT cells have been studied; the first results have demonstrated a real interest for using poly-L-lysine in these systems. This original study offers new details about the physico-chemical characterization of nanostructured systems which highlights the important role of interfaces in hybrid materials. The perspectives will concern the optimization of the synthesized nanosystems for direct nanomedicine applications.
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Construção de uma tocha indutiva para obtenção de plasma térmico à pressão atmosférica. / Construction of a inductive torch to obtain thermal plasma at atmospheric pressure.Isoldi, Maurício 17 December 2012 (has links)
Espectrometria de emissão óptica, utilizando plasmas acoplados indutivamente, torna-se uma ferramenta indispensável para análises de elementos químicos. Neste trabalho é descrita a construção detalhada de um oscilador de rádio frequência para obtenção de uma tocha de plasma indutivo. O projeto é estruturado a partir da elaboração da fonte retificadora, da malha de acoplamento, até a construção da tocha, além de análises com amostras líquidas e sólidas. Pelo fato de a tocha de plasma indutivo ser mais estável do que outros métodos de atomização, como laser ou chama, a torna uma escolha atraente para métodos analíticos, em vasta gama de aplicações. Os resultados do desempenho elétrico do oscilador de rádio frequência foram alcançados, embora as perdas sejam eminentes, foi obtida uma tensão na malha de acoplamento de 620 volts, potência na tocha de 1400 watts, e frequência do oscilador, com valor estável de 13,56 mega-hertz. Os resultados das análises também foi outro ponto de destaque, uma vez que, foi possível detectar através de um espectrômetro óptico, todos os elementos contidos numa solução de aço inox, tais como: silício, fósforo, manganês, molibdênio, cromo, níquel e cobre, embora os resultados quantitativos ainda necessitem de alguns ajustes. Com relação à análise de amostras sólidas, onde foram utilizados eletrodos consumíveis de alumínio e cobre, o resultado foi muito promissor, graças ao projeto da tocha que permite modificações em sua estrutura; os eletrodos consumíveis também foram analisados com as técnicas de difração de raio-X e microanálise por feixe de elétrons para confirmação dos resultados. / Optical emission spectrometry using inductively coupled plasma becomes an indispensable tool for analysis of chemical elements. This work describes the detailed construction of a radio frequency oscillator for obtaining an inductive plasma torch. The project is structured from the elaboration of the source rectifier, matching network, until the construction of the torch, and analyzes with liquid and solid samples. Because the inductive plasma torch to be more stable than other atomization methods such as laser or flame, becomes an attractive choice for analytical methods in wide range of applications. The results of the electrical performance of the radio frequency oscillator been achieved, although losses are distinguished was obtained at a voltage matching network 620 volts, the torch power of 1400 watts, and oscillator frequency, with a steady value of 13.56 mega-hertz. The results of analyzes was also another important point, since it was possible to detect through an optical spectrometer, all elements contained in a solution of stainless steel, such as silicon, phosphorus, manganese, molybdenum, chromium, nickel and copper, although the quantitative results still need some tweaking. Regarding the analysis of solid samples, which were consumable electrodes of aluminum and copper, the result was very promising, due to the torch project that allows modifications in its structure; consumable electrodes were also analyzed through the techniques x-ray diffraction and microanalysis by electron beam, to confirm the results.
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Biosorption de l’antimoine par la levure de boulanger Saccharomyces cerevisiae : étude cinétique et thermodynamique en solution et développement de supports pour la spéciation et la préconcentration dans les eaux / Biosorption of antimony by Saccharomyces cerevisiae : kinetics and thermodynamics in solution and development of supports for antimony speciation and preconcentration in waterMarcellino, Sébastien 12 March 2009 (has links)
L’application de la biosorption à l’analyse inorganique est un sujet en plein essor. Dans cette étude, un support à base de cellules de boulanger Saccharomyces cerevisiae a été développé pour la spéciation et la préconcentration des espèces inorganiques de l’antimoine Sb(III) et Sb(V). Nous avons tout d’abord montré qu’il était possible de fixer de manière sélective Sb(III) en présence de Sb(V) sur les cellules dans une large gamme de pH (5-9) et de force ionique (0-0,1M). Un prétraitement thermique de la biomasse (80°C, 30min) permet d’augmenter significativement la cinétique de fixation de Sb(III) sans nuire à la séparation. L’élution de Sb(III) par l’acide thioglycolique à pH 10 est rapide et quantitative, permettant d’obtenir un facteur de préconcentration proche de 9. Nous avons mis en évidence que la rétention de Sb(V) observée à bas pH était due à des complexation avec les groupements sulfhydryle de la paroi cellulaire. La modélisation des isotherme de sorption de Sb(III) (qmax = 450µg.g-1) ont permis de définir 3 types de sites d’affinité et de coordination différentes. Parmi les matrices testées pour l’immobilisation des cellules, le polysulfone s’avère être le plus performant, alliant perméabilité, faible affinité vis-à-vis de l’antimoine et préservation des sites de fixation. Des colonnes remplies de levures immobilisées ont été couplées à un spectromètre ICP-AES et appliquées avec succès à la spéciation de l’antimoine dans l’eau minérale dopée à faible concentration. Les limites de quantification de Sb(III) ont été améliorées d’un facteur 5 par préconcentration / The application of biosorption to inorganic analysis is an expanding research area. In this study, an analytical support based on baker’s yeast Saccharomyces cerevisiae was developed for the speciation and the preconcentration of inorganic antimony species Sb(III) and Sb(V). It was shown that Sb(III) can be retained selectively by the cells in the presence of Sb(V) in a wide range of pH (5-9) and ionic strength (0-0,1M). Heat pretreatment of the biomass (80°C, 30min) significantly increased the kinetics of Sb(III) uptake without degrading the separation. The elution of Sb(III) by thioglycolic acid at pH 10 was rapid and quantitative, allowing to achieve a preconcentration factor close to 9. Interactions between Sb(V) and the cells, as observed at lower pH, were found to be purely electrostatic, while Sb(III) retention was attributed to the complexation of the species with sulfhydryl groups of the cell walls. Three kinds of sites with different affinities and coordinations were identified by modeling Sb(III) sorption isotherms (qmax = 450µg.g-1). Among the different materials tested, polysulfone was found to be the most suitable matrix for yeast immobilization, combining a good permeability to a low affinity for antimony species and preservation of the sorption sites. Columns filled with immobilized cells were coupled with ICP-AES and successfully applied to antimony speciation in mineral waters samples spiked at low concentration level. The limit of quantification was improved by a factor of 5 by preconcentration
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Détermination du béryllium dans les cheveux humains non exposés, les poils et les os de souris exposées à des poussières de bérylliumDrolet-Vives, Katherine January 2009 (has links)
Mémoire numérisé par la Division de la gestion de documents et des archives de l'Université de Montréal
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