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The study of the surface tilt-angle of the liquid crystal molecules with attenuated total reflection methodLin, Yu-Sung 14 July 2003 (has links)
The attenuated total reflection (ATR) due to excitation of surface plasmon is usually applied to study the dielectric coefficient. In this study the surface plasmon has been excited on the interface between the liquid crystal and silver in Krestchmann configuration. We can obtain the effective reflection index and the tilt-angle of liquid crystal anchored on the interface with the excitation condition of surface plasmon. We also discuss the variation of the tilt-angle of liquid crystal with the various applied bias.
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Part I. From the Lab to the Field - Recent Developments in Polymer Coated ATR Sensing for the Determination of Volatile Organic Compounds ; Part II. From the Field to the Lab - Investigating IR Signatures for Remote Sensing ApplicationsKarlowatz, Manfred 22 June 2004 (has links)
Part I:
Successful transition of polymer coated, ATR-FTIR sensor devices from a laboratory environment to real world field applications for detecting and quantifying VOCs in water is shown. Simultaneous, quantitative detection of BTX mixtures in water during enrichment into polymer coated ZnSe ATR elements has been performed. The obtained results showed accurate detection and quantification to the low ppb concentration region. Fiber-optic evanescent field measurement campaigns have been conducted at simulated field conditions during which concentration gradients of various VOCs in the mg/L range have been monitored successfully. The first test of an ATR based, polymer coated sensor system under real world field conditions, the chlorobenzene concentration in groundwater at mg/L levels was determined. An interesting aspect of these measurements was the experimental proof for the dependence of analyte extraction dynamics on the flow conditions of the sample matrix surrounding the extractive polymer membrane. The obtained results demonstrate that MIR evanescent field sensors are suitable for in-situ analysis at real world field conditions for environmental monitoring applications.
PART II:
Recently, measurements of disturbed soils have shown different spectral contrast in comparison to undisturbed soils. In this work first measurements at controlled laboratory conditions have been performed to investigate individual minerals of the soil matrix and their spectral characteristics under various environmental conditions. ATR spectroscopy has been applied to investigate multi-disperse quartz sand and mono-disperse soda lime glass spheres samples. For the investigation of spectral differences between pristine and disturbed quartz sand, a wetting/drying procedure with subsequent sample aerating has been developed. In addition to established differences in spectral contrast of disturbed and undisturbed soil, a strong spectral shift of absorption features was observed. When probed with s- or p-polarized light, both samples showed strong LO-TO mode splitting. The studies also reveal that the main reason for spectral differences of pristine and disturbed soils is caused by water facilitated changes of the particle size distribution in the probed volume. The presented results advance the variety of spectral characteristics useful for the detection of disturbed soils (i.e. possible landmine sites) with MIR imaging systems.
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Study of calcification formation and disease diagnostics utilising advanced vibrational spectroscopyKerssens, Marleen Maartje January 2012 (has links)
The accurate and safe diagnosis of breast cancer is a significant societal issue, with annual disease incidence of 48,000 women and around 370 men in the UK. Early diagnosis of the disease allows more conservative treatments and better patient outcomes. Microcalcifications in breast tissue are an important indicator for breast cancers, and often the only sign of their presence. Several studies have suggested that the type of calcification formed may act as a marker for malignancy and its presence may be of biological significance. In this work, breast calcifications are studied with FTIR, synchrotron FTIR, ATR FTIR, and Raman mapping to explore their disease specific composition. From a comparison between vibrational spectroscopy and routine staining procedures it becomes clear that calcium builds up prior to calcification formation. Raman and FTIR indicate the same size for calcifications and are in agreement with routine staining techniques. From the synchrotron FTIR measurements it can be proven that amide is present in the centre of the calcifications and the intensity of the bands depends on the pathology. Special attention is paid to the type of carbonate substitution in the calcifications relating to different pathology grades. In contrast to mammography, Raman spectroscopy has the capability to distinguish calcifications based on their chemical composition. The ultimate goal is to turn the acquired knowledge from the mapping studies into a clinical tool based on deep Raman spectroscopy. Deep Raman techniques have a considerable potential to reduce large numbers of normal biopsies, reduce the time delay between screening and diagnosis and therefore diminish patient anxiety. In order to achieve this, a deep Raman system is designed and after evaluation of its performance tested on buried calcification standards in porcine soft tissue and human mammary tissue. It is shown that, when the calcification is probed through tissue, the strong 960 cm-1 phosphate band can be used as a pseudo marker for carbonate substitution which is related to the pathology of the surrounding tissue. Furthermore, the first study in which human breast calcifications are measured in bulk tissue with a thickness of several millimetres to centimetres is presented. To date, measurements have been performed at 41 specimens with a thickness up to 25 mm. Measurements could be performed through skin and blue dye. The proposed deep Raman technique is promising for probing of calcifications through tissue but will need refinement before being adopted in hospitals.
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Vibrační spektroskopie ve farmaceutické analýze / Vibrational spectroscopy in pharmaceutical analysisPrůchová, Kristýna January 2012 (has links)
The aim of this diploma thesis is the application of vibrational spectroscopy in pharmaceutical analysis in studying solid pharmaceutical forms. The surface of tablet samples containing the active substance from the group of statins has been studied especially by the methods infrared microscopy. Spectral maps of samples were collected thanks to the techniques of specular reflection, attenuated total reflection (ATR) and "inverse" ATR after determining optimal conditions for measurements. In order to evaluate these measured maps, one-dimensional analysis and principal component analysis were used. As the same samples of tablets were also measured by Raman microscopy, the comparison has been provided. The measured distribution maps enable both a determination of substances in the sample and conclusion concerned a method of tablets' preparation. The method in this case is a granulation, which has been found out from a comparison of maps of generic and original medicament. The specular reflection method was selected to be the most appropriate technique for obtaining the maps of the surface of a tablet, via confrontation of particular methods consequently with consideration of their advantages and disadvantages in the measurement and data processing.
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Investigation Of Drug-related Changes On Bone Tissues Of Rat Animal Models In Healthy And Disease StatesGarip, Sebnem 01 October 2012 (has links) (PDF)
Disease- and drug-related bone disorders are rapidly increasing in the population. The drugs which are used for the treatment of neurodegenerative diseases and metabolic derangements, may have negative or positive effects on bone tissues.
In the first study, the possible side-effects of Carbamazepine and epileptic seizures on bone structure and composition were investigated by FTIR and synchrotron-FTIR microspectroscopy, AFM and micro- and nano-hardness analysis. The effects on the blood parameters, bone turnover and vitamin D metabolism were also investigated by ELISA and western blot analysis. The current study provides the first report on differentiation of the effects of both epileptic seizures and AED therapy on bones. Besides Carbamazepine treatment, seizures also caused a decrease in the strength of bone. The biochemical data showed that both the epileptic and drug-treated groups decreased vitamin D levels by increasing the vitamin D catabolism enzyme / 25-hydroxyvitamin D-24-hydroxylase.
In the second study, the possible pleiotropic (positive) effects of cholesterol lowering drug / Simvastatin on bones were investigated by ATR-FTIR spectroscopy. The current study provides the first report on dose-dependent effects of simvastatin on protein structure and lipid conformation of bones. ATR-FTIR studies showed that although both high and low dose simvastatin strengthen bones, low dose simvastatin treatment is much more effective in increasing bone strength. Neural network analysis revealed an increased antiparallel and aggregated beta sheet and random coil in the protein secondary structure of high dose group implying a protein denaturation. Moreover, high dose may induce lipid peroxidation which limit the pleiotropic effects of high dose treatment on bones. This study clearly demonstrated that using low dose simvastatin is safer and more effective for bone health than high dose simvastatin treatment.
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Characterization And Identification Of Human Mesenchymal Stem Cells At Molecular LevelAksoy, Ceren 01 March 2012 (has links) (PDF)
Bone marrow mesenchymal stem cells (BM-MSCs) are pluripotent cells that can differentiate into a variety of non-hematopoietic tissues. They also maintain healthy heamatopoiesis by providing supportive cellular microenvironment into BM. In this thesis, MSCs were characterized in terms of their morphological, immunophenotypical and differentiation properties. Then, they were examined by attenuated total reflection-Fourier transform infrared (ATR-FTIR) spectroscopy together with hierarchical clustering, and FTIR microspectroscopy.
In the first part of this study, global structural and compositional changes in BM-MSCs during beta thallasemia major (
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Characterization And Identification Of Human Mesenchymal Stem Cells At Molecular LevelAksoy, Ceren 01 March 2012 (has links) (PDF)
Bone marrow mesenchymal stem cells (BM-MSCs) are pluripotent cells that can differentiate into a variety of non-hematopoietic tissues. They also maintain healthy heamatopoiesis by providing supportive cellular microenvironment into BM. In this thesis, MSCs were characterized in terms of their morphological, immunophenotypical and differentiation properties. Then, they were examined by attenuated total reflection-Fourier transform infrared (ATR-FTIR) spectroscopy together with hierarchical clustering, and FTIR microspectroscopy.
In the first part of this study, global structural and compositional changes in BM-MSCs during beta thallasemia major (
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Investigação de processos físico-químicos na adesão e desenvolvimento de biofilmes de Xylella fastidiosa / Investigation on physico-chemical processes during adhesion and biofilm development of Xylella fastidiosaLorite, Gabriela Simone, 1983- 18 August 2018 (has links)
Orientador: Mônica Alonso Cotta / Tese (doutorado) - Universidade Estadual de Campinas, Instituto de Física Gleb Wataghin / Made available in DSpace on 2018-08-18T17:58:13Z (GMT). No. of bitstreams: 1
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Previous issue date: 2011 / Resumo: Apresentamos nesta tese uma investigação dos processos físico-químicos da adesão e desenvolvimento de biofilmes da bactéria fitopatogênica Xylella fastidiosa (Xf) em diferentes superfícies. Este estudo visa corroborar ou complementar diferentes aspectos dos modelos atualmente em discussão para biofilmes bacterianos, além de, num caráter tecnológico, fornecer subsídios para um eventual controle da formação dos biofilmes de Xf. Para isso utilizamos uma abordagem diferenciada à comumente empregada em biologia - e mais próxima à ciência dos materiais - visando isolar e quantificar a relevância dos parâmetros que contribuem na formação de um biofilme em diferentes superfícies, tentando aproximá-las do xilema da planta. Nossos resultados mostram uma semelhança de desenvolvimento (forma, tamanho e quantidade) nos biofilmes de Xf cultivados em superfícies de vidro e Si, e um melhor desenvolvimento dos biofilmes em Si do que nas superfícies de etil celulose, EC, e acetato de celulose, AC. De um ponto de vista fenomenológico, os biofilmes apresentam diferentes estruturas, taxa de desenvolvimento e tendências na expressão gênica entre superfícies com e sem presença de celulose derivatizada. Na caracterização das superfícies utilizadas consideramos o efeito do meio de cultura em suas propriedades. Nas superfícies de vidro e Si, constatamos a formação de um filme condicionante devido à adsorção dos constituintes deste meio. O grau de hidrofobicidade das superfícies de vidro e Si diminui significativamente após contato com o meio de cultura enquanto as superfícies de celulose derivatizada apresentam pouca (EC) ou nenhuma alteração (AC); observamos também um aumento do potencial de superfície (PS) para Si e EC e, ainda, uma diminuição de PS em AC. Estas evidências sugerem uma correlação entre PS mais altos e grau de hidrofobicidade baixos com a presença de biofilmes de Xf em maior número e tamanho. Além disso, medidas de espectroscopia de força utilizando ponta funcionalizada com a proteína de adesão XadA1 evidenciam também um comportamento distinto na superfície de AC. Estes resultados apontam para a importância da interação eletrostática no processo inicial de adesão da bactérias às superfícies estudadas. Por fim, a presença de material extracelular ao redor dos biofilmes e células de Xf em superfícies de vidro e Si foi observada indicando a presença de uma matriz exopolimérica protetora. Espectroscopia de infravermelho mostra a presença de polissacarídeos ¿ constituinte da matriz polimérica ¿ desde o estágio inicial de formação do biofilme, indicando uma possível contribuição dessa matriz para o processo de adesão que precede o desenvolvimento do biofilme / Abstract: In this work, we report an investigation on relevant physicochemical processes of bacterial surface adhesion and biofilm development for the phytopathogen Xylella fastidiosa (Xf) on different surfaces. This study aims to corroborate or supplement different aspects of the bacterial biofilms models currently under discussion and, in a technological point of view, provides experimental input for an eventual control of Xf biofilm formation. For this purpose, we have used an approach not commonly found in biology ¿ and more similar to materials science ¿ in order to isolate and quantify the relevance of the parameters that contribute to the formation of a biofilm on different surfaces, as well as trying to make these surfaces closer to the plant xylem. Our results show a similar development (shape, size and quantity) for Xf biofilms grown on Si and glass surfaces, and an improved development of biofilms grown on Si than on ethyl cellulose, EC, and cellulose acetate, AC. Under a phenomenological point of view, biofilms present different structures, rate of development and trends in gene expression between surfaces with and without the presence of derivatized cellulose. In order to characterize the surfaces, we considered the effect of culture medium on their properties. In Si and glass surfaces, we observe the formation of a conditioning film due to adsorption of the constituents of the culture medium. The degree of hydrophobicity of glass and Si surfaces decreases significantly after contact with this medium. On the other hand, cellulose derivatized surfaces present lower (EC) or no (AC) modifications of this property. In addition, we observed an increase in the surface potential (SP) for Si and EC and also a SP decrease for AC. These evidences suggest a correlation between higher SP values and lower degree of hydrophobicity with the presence of biofilms of Xf in larger numbers and size. Furthermore, force spectroscopy measurements using a functionalized tip with the adhesion protein XadA1 also show a different behavior on the AC surface. These results reveal the importance of electrostatic interaction in the initial bacterial adhesion for the surfaces studied here. Finally, the presence of extracellular material around the Xf cells and biofilms on glass and Si surfaces was observed indicating the presence of a protective exopolymeric matrix. Infrared spectroscopy shows the presence of polysaccharides - a constituent of the polymeric matrix - from the very initial stages of biofilm formation, indicating a possible contribution of this matrix for the adhesion process which precedes biofilm development / Doutorado / Biofísica / Doutora em Ciências
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Strukturní a morfologická charakterizace polyamidových spon / Structural and morphological characterization of polyamide bucklesKubíčková, Eva January 2016 (has links)
The work deals with structrural and morphological characterization of polyamide buckles used to fasten webbins. The buckles were produced in five different years, a few of those produced in 2000 and 2004 were broken. The aime is to determine the type of polyamide and the cause of fracture of the buckles during using. The buckles were characterized in terms of structure and composition by Fourier-transform infrared spectroscopy in a mode of attenuated total reflaction, differential scanning calorimetry, thermogravimetry and X-ray diffraction. The buckles were made of polyamide 12. The broken buckles showed higher melting point, lower thermal stability and, in addition to modification it also contains modification, which is more fragile and probably represents the cause of fracture.
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Étude des propriétés de transport dans les hydrogels de curdlanGagnon, Marc-André 12 1900 (has links)
Les hydrogels de polysaccharide sont des biomatériaux utilisés comme matrices à libération contrôlée de médicaments et comme structures modèles pour l’étude de nombreux systèmes biologiques dont les biofilms bactériens et les mucus. Dans tous les cas, le transport de médicaments ou de nutriments à l’intérieur d’une matrice d’hydrogel joue un rôle de premier plan. Ainsi, l’étude des propriétés de transport dans les hydrogels s’avère un enjeu très important au niveau de plusieurs applications.
Dans cet ouvrage, le curdlan, un polysaccharide neutre d’origine bactérienne et formé d’unités répétitives β-D-(1→3) glucose, est utilisé comme hydrogel modèle. Le curdlan a la propriété de former des thermogels de différentes conformations selon la température à laquelle une suspension aqueuse est incubée. La caractérisation in situ de la formation des hydrogels de curdlan thermoréversibles et thermo-irréversibles a tout d’abord été réalisée par spectroscopie infrarouge à transformée de Fourier (FT-IR) en mode réflexion totale atténuée à température variable. Les résultats ont permis d’optimiser les conditions de gélation, menant ainsi à la formation reproductible des hydrogels.
Les caractérisations structurales des hydrogels hydratés, réalisées par imagerie
FT-IR, par microscopie électronique à balayage en mode environnemental (eSEM) et par microscopie à force atomique (AFM), ont permis de visualiser les différentes morphologies susceptibles d’influencer la diffusion d’analytes dans les gels. Nos résultats montrent que les deux types d’hydrogels de curdlan ont des architectures distinctes à l’échelle microscopique.
La combinaison de la spectroscopie de résonance magnétique nucléaire (RMN) à gradients pulsés et de l’imagerie RMN a permis d’étudier l’autodiffusion et la diffusion mutuelle sur un même système dans des conditions expérimentales similaires. Nous avons observé que la diffusion des molécules dans les gels est ralentie par rapport à celle mesurée en solution aqueuse. Les mesures d’autodiffusion, effectuées sur une série d’analytes de diverses tailles dans les deux types d’hydrogels de curdlan, montrent que le coefficient d’autodiffusion relatif décroit en fonction de la taille de l’analyte. De plus, nos résultats suggèrent que l’équivalence entre les coefficients d’autodiffusion et de diffusion mutuelle dans les hydrogels de curdlan thermo-irréversibles est principalement due au fait que l’environnement sondé par les analytes durant une expérience d’autodiffusion est représentatif de celui exploré durant une expérience de diffusion mutuelle. Dans de telles conditions, nos résultats montrent que la RMN à gradients pulsés peut s’avérer une approche très avantageuse afin de caractériser des systèmes à libération contrôlée de médicaments. D’autres expériences de diffusion mutuelle, menées sur une macromolécule de dextran, montrent un coefficient de diffusion mutuelle inférieur au coefficient d’autodiffusion sur un même gel de curdlan. L’écart mesuré entre les deux modes de transport est attribué au volume différent de l’environnement sondé durant les deux mesures.
Les coefficients d’autodiffusion et de diffusion mutuelle similaires, mesurés dans les deux types de gels de curdlan pour les différents analytes étudiés, suggèrent une influence limitée de l’architecture microscopique de ces gels sur leurs propriétés de transport. Il est conclu que les interactions affectant la diffusion des analytes étudiés dans les hydrogels de curdlan se situent à l’échelle moléculaire. / Polysaccharide hydrogels are biomaterials used as controlled drug delivery matrices and serve as model scaffolds for the study of many biological systems like bacterial biofilms and mucus. In every case, the transport of drugs or nutriments across a hydrogel matrix is of prime importance. Therefore, the study of transport properties in hydrogels is an important issue for many fields of application.
In this work, curdlan, a neutral bacterial polysaccharide made of
β-D-(1→3) glucose repeating units, is used as a model hydrogel. Aqueous suspensions of curdlan can form thermogels of different conformations depending on the incubation temperature. In situ characterization of the preparation of thermo-reversible (low-set) and thermo-irreversible (high-set) curdlan hydrogels was first carried out using variable temperature attenuated total reflection (ATR) Fourier transform infrared spectroscopy (FT-IR). The results allowed optimization of the gelling conditions leading to reproducible gel samples.
Structural characterization of fully hydrated hydrogels, carried out by FT-IR imaging, environmental scanning electron microscopy (eSEM) and atomic force microscopy (AFM), allowed visualization of the different gel morphologies susceptible of influencing the diffusion of analytes in hydrogels. Our results show that both types of curdlan hydrogels have distinct microscopic architectures.
The combination of pulsed field gradient (PFG) nuclear magnetic resonance (NMR) spectroscopy and NMR profiling allowed the study of self-diffusion and mutual diffusion on the same hydrogel system in similar experimental conditions. We showed that the diffusion of analytes in the gels is slower than in the aqueous solution. The diffusion experiments, carried out on a series of analytes of various sizes in both types of curdlan gels, show a decrease of the relative self-diffusion coefficient as a function of the analyte size. In addition, our results suggest that the equivalence between the self-diffusion and mutual-diffusion coefficients measured in the high-set curdlan gels is mainly due to the fact that the environment probed by the analytes during a self-diffusion experiment is representative of the one probed during a mutual-diffusion experiment. In such conditions, our results show that PFG NMR may present a valuable approach for the characterization of controlled drug release systems. Additional experiments show that the mutual-diffusion coefficient of dextran macromolecules is smaller than its self-diffusion coefficient in the same curdlan hydrogel. The difference between both transport rates is attributed to the different environment volumes probed by the analytes during the measurements.
The similarities observed between the self-diffusion and mutual-diffusion coefficients, measured in both types of curdlan gels for all investigated analytes, suggest a limited influence of the microscopic gel architecture on its transport properties. It is therefore concluded that the interactions affecting the diffusion of the investigated analytes in the curdlan hydrogels lie at the molecular scale.
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