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Local Structure and the Photoelastic Response in Zinc-modified Oxide GlassThorbahn, Jeremy G. 09 August 2013 (has links)
Understanding the relationship between the structure of materials and their properties
allows for the development of new applications and technologies. Here the relationship
between local structure and optical properties in several binary oxide glass systems
containing zinc oxide was examined, in particular the relationship between structure,
applied stress and induced birefringence in a glass. The empirical model introduced by
Zwanziger and co-workers posits a negative correlation between the ratio of the bond
length to coordination number in a glass and the induced birefringence; zinc oxide in this
model is predicted to be exactly at the threshold between positive and negative
birefringence and is thus of particular interest to investigate. XAFS and Raman
spectroscopy were used to determine local structure while the Sénarmont compensator
method, Abbe refractometry and spectroscopic ellipsometry were used to measure optical properties.
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Structure of copper halide melts, rare earth chalcogenide glasses and glassy germania at high pressureDrewitt, James W. E. January 2009 (has links)
No description available.
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Structural Investigations of Complex Glasses by Solid-state NMRLeonova, Ekaterina January 2009 (has links)
This PhD thesis presents structural investigations of amorphous inorganic materials: oxide and oxynitride glasses and mesoporous bioactive glasses (MBGs), by solid-state Nuclear Magnetic Resonance (NMR). Lanthanum oxide and oxynitride [La-Si-(Al)-O-(N)] glasses have a large number of potential applications due to their physical properties. In our work we have studied, compared to previous investigations, significantly expanded ranges of glass compositions (for oxynitride glasses, including samples of very high nitrogen content, up to 53 % out of the anions). We have estimated local environments of 29Si and 27Al structural units (their coordination, polymerization degree and number of N incorporated into tetrahedral units) in the materials. We have suggested a random Al/Si distribution along with almost uniform non-bridging oxygen atoms distribution in aluminosilicate glasses. Silicon nitride was used as precursor in the oxynitride glass synthesis. We studied both α- and β-modifications of silicon nitride, 15N-enriched, as well as fully (29Si, 15N)-enriched samples. We have shown that the linewidths of 15N NMR spectra are dominated by J(29Si-15N) coupling in 29Si315N4 sample. Mesoporous bioactive glasses in the CaO-SiO2-P2O5 system show superior bioactivity (the ability to form a hydroxycarbonate apatite layer on the glass surface when exposed to body fluids) compared to conventional bioactive glasses due to their large surface area and uniform pore-size distribution. Previous studies suggested a homogeneous cation distribution over the MBG samples on a 10−20 nm length-scale. From our results, on the other hand, we may conclude that Si and P is not intimately mixed. We propose a structural model, in which the pore walls of MBGs are composed of a silica network, and a phosphate phase is present as nanometer-sized clusters that are dispersed on the pore wall.
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Optimization of High-Level Waste Loading in a Borosilicate Glass Matrix by Using Chemical Durability Modeling ApproachMohammad, Javeed 13 December 2002 (has links)
A laboratory scale study was carried out on a set of 6 borosilicate waste glasses made from simulated high-level nuclear waste. The test matrix was designed to explore the composition region suitable for the long-term geologic disposal of high-temperature-and high-waste-containing glasses. The glass compositions were selected to achieve maximum waste loading without a sacrifice in glass durability. The relationship between glass composition and chemical durability was examined. The qualitative effect of increasing B2O3 content on the overall waste glass leaching behavior has also been addressed. The glass composition matrix was designed by systematically varying the factors: %waste loading and (SiO2+Frit):B2O3 ratio, with (SiO2:Frit) ratio being held constant. In order to assess the chemical durability, the Product Consistency Test (ASTM C-1285) was performed. Under PCT protocol, crushed glass was allowed to react with ASTM type I water under static conditions. All leachate solutions were analyzed by the technique; Inductively Coupled Plasma-Atomic Emission Spectroscopy (ICP-AES). A statistical regression technique was utilized to model the normalized release of the major soluble elements, Na, Si, and B, as a function of the individual as well as interactive chemical effects (B2O3, Al2O3, Fe2O3, MnO, SiO2, SrO, Na2O, B2O3*SiO2, B2O3*Al2O3, Fe2O3*Na2O, Al2O3*Na2O, and MnO*SiO2). Geochemical modeling was performed using the computer code EQ3/6 to: (1) determine the saturation states of the possible silicate minerals, a-cristobalite and chalcedony; and (2) predict the most stable mineral phase based on the mineral thermodynamic data. Mineral/water interactions were analyzed by representing the resultant glass data on a Na-Al-Si-O-H stability diagram.
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Temperature Dependent Behavior of Optical Loss from Hydrogen Species in Optical Fibers at High TemperatureBonnell, Elizabeth Ann 30 July 2015 (has links)
This study reports on the behavior of silica based optical fibers in a hydrogen environment at high temperatures. The hydrogen response in the form of optical loss in the wavelength range of 1000-2500 nm of a germanium doped graded index 50/125 graded index fiber was examined in the temperature range of 20–800 °C. When the fiber was exposed to hydrogen at 800 °C two absorption bands appeared: ~1390 nm assigned to the first overtone of the hydroxyl stretch and ~2200 nm band with complex assignments including the combination mode of the fundamental hydroxyl stretch with SiO4 tetrahedral vibrations and the combination mode of SiOH bend and stretch. The growth rate of the 1390 nm band fits the solution to the diffusion equation in cylindrical coordinates while the 2200 nm band does not. Absorption for both bands persisted as the fiber is cooled to room temperature. Temperature dependent behavior was observed in that as temperature increases from room temperature, the absorption intensity decreases and band shifts slightly to longer wavelengths. Temperature dependence is repeatable and reversible. However, if no hydrogen is present in the environment at temperatures greater than 700 °C, the 1390 nm band will permanently decrease in intensity, while the 2200 nm band does not change. Changes in the structure of the glass appear to be causing this temperature dependent behavior. Other necessary conditions for structural changes to cause this temperature dependent behavior are examined. / Master of Science
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Composition-Structure Correlations of Bioactive Glasses Explored by Multinuclear Solid-state NMR SpectroscopyMathew, Renny January 2015 (has links)
This PhD thesis presents a study of structure-composition correlations of bioactive glasses (BGs) by employing solid-state Nuclear Magnetic Resonance (NMR) spectroscopy. Silicate-based Na2O−CaO−SiO2−P2O5 BGs are utilized clinically and are extensively investigated for bone regeneration purposes. Once implanted in the human body, they facilitate bone regeneration by partially dissolving in the body fluids, followed by the formation of a biomimetic surface-layer of calcium hydroxy-carbonate apatite (HCA). Eventually, the implanted BG totally integrates with the bone. The bioactivity of melt-prepared BGs depends on their composition and structure, primarily on the phosphorus content and the average silicate-network connectivity (NC). We explored these composition-structure relationships for a set of BGs for which the NC and phosphorus contents were varied independently. The short-range structural features of the glasses were explored using 29Si and 31P magic-angle-spinning (MAS) NMR spectroscopy. 31P MAS NMR revealed that the orthophosphate content is directly proportional to the total P content of the glass, with a linear correlation observed between the orthophosphate content and the silicate network connectivity. The bearings of the results for future BG design are discussed. By using multiple-quantum coherence-based 31P NMR experiments, the spatial distribution of orthophosphate groups was probed in the melt prepared BGs, as well as in two mesoporous bioactive glasses prepared by an evaporation-induced self-assembly technique. The results evidence randomly distributed orthophosphate groups in the melt-prepared BGs, whereas the pore-walls of the mesoporous bioactive glasses constitute nanometer-sized clusters of calcium phosphate. The distribution of Na+ ions among the phosphate/silicate groups were studied by heteronuclear dipolar-based 23Na−31P NMR experiments, verifying that sodium is dispersed nearly randomly in the glasses. The phosphorus and proton environments in biomimetically grown HCA were investigated by using 1H and 31P MAS NMR experiments. Our studies revealed that the biomimetic HCA shared many local structural features with synthetic and well-ordered hydroxy-apatite. / <p>At the time of the doctoral defense, the following paper was unpublished and had a status as follows: Paper 4: Accepted.</p>
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Développement de membranes pour les capteurs chimiques potentiométriques spécifiques aux ions Thallium et Sodium / Membranes development for thallium and sodium ions chemical potentiometric sensorsParaskiva, Alla 15 December 2017 (has links)
Le but de ce travail de thèse a consisté à étudier les propriétés physico-chimiques des verres chalcogénures des systèmes pour pouvoir les utiliser comme les membranes des capteurs chimiques pour le dosage des ions TI⁺ et NA⁺ . D'abord, on a effectué les mesures des propriétés macroscopiques telles que les densités et les températures caractéristiques (Tg, Tc, Tf) et leur analyse selon les compositions des verres. Après, les propriétés de transport ont été étudiés à l'aide de la spectroscopie d'impédance complexe ou par les mesures de la résistivité. Il a été ainsi montré l'effet de cation mixte pour les trois systèmes vitreux avec les ions TI/Ag et le régime de la percolation dans le système NaCl-Ga₂S₃-GeS₂ . Puis, on a réalisé les mesures de diffusion par traceur ¹⁰⁸mAg et ²⁰⁴TI pour le système (TI₂S)ₓ(Ag₂S)₅₀₋ₓ(GeS)₂₅(GeS₂)₂₅. Les résultats ont permis d'expliquer l'effet de cation mixte. Afin de mieux comprendre les phénomènes de transport des systèmes étudiés, diverses études structurales ont été déployées par spectroscopie Raman, diffusion de neutrons et diffraction de rayons X haute énergie. Enfin, la dernière partie de ce travail est entièrement consacrée à la caractérisation de nouveaux capteurs chimiques pour la détection des ions TI⁺ et NA⁺ en solution. Dans le premier cas, les électrodes sélectives aux ions TI⁺ avec les différentes compositions de membrane ont été testées afin de définir la sensibilité, la limite de détection, les coefficients de sélectivité en présence d'ions interférents, la reproductabilité, l'influence de pH. En plus, il était effectué l'échange des traceurs ²⁰⁴TI entre la solution et les verres à base des matrices GeS₂ et Ge₂S₃ pour comprendre et expliquer les différences significatives dans la sensibilité et la limite de détection présentés par les capteurs dont les membranes ont la composition de verre similaire. Dans le deuxième cas, les études montrent l'existence de la sensibilité aux ions NA⁺ donc le développement des capteurs pour le dosage des ions de sodium est possible. / The aim of this thesis was to study the physicochemical properties of the chalcogenide glasses for possibility to use them as the chemical sensor membranes for the quantitative analysis of TI⁺ and NA⁺ ions. Firstly, the measurements of the macroscopic properties such as the densities and the characteristic temperatures (Tg, Tc, Tf) and their analysis according to the glass compositions were carried out. After that, the transport properties were studied through complex impedance conductivity measurements and from dc conductivity measurements. These experiments have shown the mixed cation effect in three chalcogenide glassy systems with TI/Ag ions and the percolation regime in the NaCl-Ga₂S₃-GeS₂ system. Then the silver ¹⁰⁸mAg and thallium ²⁰⁴TI tracer diffusion measurements were carried out for (TI₂S)ₓ(Ag₂S)₅₀₋ₓ(GeS)₂₅(GeS₂)₂₅ system. The result permit to explain the mixed cation effect. In order to better understand the transport phenomena of the studied systems, the various structural studies have been deployed using Raman spectroscopy, neutron diffraction and high energy X-ray diffraction. Finally, the last part of this work is entirely devoted to the characterization of new chemical sensors for detection of TI⁺ and NA⁺ ions in solution. In the first case, the sensors with different membrane compositions were tested for defining the sensitivity, the detection limit, the selectivity coefficients in the presence of interfering ions, the reproductibility, the pH influence. In addition, the ionic exchange with radioactive isotopes ²⁰⁴TI between the solution and the GeS₂ or Ge₂S₃ based glasses was performed for understanding and explaining the significant differences in the sensitivity and the detection limit presented by the sensors whose membranes have the similar glass compositions. In the second case, the studies shows the existence of sensitivity for NA⁺ ions so the development of sensors for the determination of sodium ions is possible.
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NMR methods and analysis for determining correlated structural distributions in amorphous solidsSrivastava, Deepansh 07 November 2018 (has links)
No description available.
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Estudo e desenvolvimento de vidros no sistema cálcio borotelurito / Study and development of glasses in the system calcium boroteluritoPAZ, Edson Carvalho da 30 June 2015 (has links)
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Previous issue date: 2015-06-30 / CAPES, CNPQ / In this work glass formation of CaF2-CaO-B2O3-TeO2 system (CBTx), with tellurium oxide concentrations varing from 20 to 50 wt%, was studied. In order to evaluate the glass forming ability of that system, six glass matrix were prepared and characterized to understand the behavior of their physical, thermal, structural, optical and spectroscopic properties. As far we know, this is the first report in the literature about this glass system. The preparation of glasses CBTx system was carried out keeping the Ca/B2O3. The prepared glass samples were characterized by X-ray diffraction (XRD), volumetric density (ρ), Raman spectroscopy, Fourier transform infrared spectroscopy (FTIR), differential thermal analysis (DTA), specific heat (cp), refractive index (n), electronic polarizability (α), theoretical optical basicity (Λth), optical absorption coefficient (Ae) and band gap optical (Eopt). The results are discussed in terms of tellurium oxide content and structural properties of the glass samples. Density, thermal stability, refractive index, electronic polarizability and theoretical optical basicity values increase with TeO2 content, while transition temperature (Tg), specific heat, optical window and the band gap optical decrease; Raman and FTIR spectroscopy indicated that the network structure of studied glass is formed by BO3, BO4, TeO3, TeO3+1 and TeO4 units. The CBTx system showed a good ability to glass formation, especially the glass matrix of most TeO2 content (CBT50), which proved to be the most suitable for future work doping with rare earth ions and tests as optical amplifier in communication fibers or other photonic devices. / Neste trabalho apresentamos o estudo da formação de vidros no sistema [10CaF2-(30-0,4x)CaO-(60-0,6x)B2O3-xTeO2], em que 20 ≤ x ≥ 50 % em massa, denominado CBTx, com o objetivo de avaliar a habilidade de formação vítrea do referido sistema visando obter matrizes vítreas estáveis. Até onde sabemos, este é o primeiro relato na literatura de pesquisas sobre esse sistema. O preparo dos vidros no sistema CBTx foi realizado mantendo constante a razão Ca/B2O3. Neste trabalho sintetizamos seis amostras vítreas, as quais foram submetidas ao processo de caracterização por meio das seguintes análises: difração de raios-X (DRX), densidade de massa volumétrica (ρ), espectroscopia Raman, espectroscopia no infravermelho com transformada de Fourier (FTIR), análise térmica diferencial (DTA), calor específico (cp), índice de refração (n), polarizabilidade eletrônica (α), basicidade óptica teórica (Λth), coeficiente de absorção óptica (Ae) e band gap óptico (Eopt). Os resultados foram discutidos em função do conteúdo de óxido de telúrio e de suas alterações nas propriedades estruturais, térmicas, ópticas e espectroscópicas das amostras vítreas. Com o aumento da concentração de TeO2 nas amostras, houve aumento dos valores da densidade, da estabilidade térmica, do índice de refração, da polarizabilidade eletrônica e da basicidade óptica teórica; redução da temperatura de transição vítrea (Tg), do calor específico e da janela óptica e deslocamento do band gap óptico para menor energia; as espectroscopias Raman e FTIR indicaram que a estrutura da rede dos vidros sob investigação é formada por unidades BO3, BO4, TeO3, TeO3+1 e TeO4. O sistema CBTx apresentou uma boa habilidade de formação vítrea, com destaque para a matriz vítrea de maior teor estudado de TeO2 (CBT50), que se mostrou a mais indicada para trabalhos futuros de dopagem com íons terras raras e testes como amplificador óptico em fibras de comunicação ou outros dispositivos fotônicos.
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Vidros fosfatos com tungstênio: incorporação de cátions alcalinos e sua influência nas propriedades estruturais e condutoras / Phosphate glasses with Tungsten: incorporation of alkaline cations and its influence on structural and conductive propertiesMunhoz, João Fernando Villarrubia Lopes 23 March 2018 (has links)
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Previous issue date: 2018-03-23 / Conselho Nacional de Desenvolvimento Científico e Tecnológico (CNPq) / Many glasses have been studied as solid
electrolytes in behalf of replacing commercial liquid electrolytes. However, even
for the best glass compositions available in the literature, values of conductivity
similar to those presented by liquids are far beyond to be achieved. This work
intends to show how changes in the structure, by means of composition, can help
to increase the conductivity in oxide glasses. Samples with composition x WO3 -
0.30 (NaPO3)n - (0.70-x) NaF, with 0,30 ≤ ≤ 0,60;, were produced by melting
quenching methodology. Substitution of tungsten for sodium fluoride generates a
linear decrease of glass transition temperature while the stability remains high
enough up to = % and decreasing for higher WO3 content. Raman and
31P and 19F 1D MAS-NMR spectroscopies data shows that the less NaF leads to a
depolymerization of main phosphate chains, due to formation of − −
bonds. In addition, fluorine atoms prefer to bind in the − form, with low
tungsten content, or in − , with high proportion All samples showed same
calculated values of Ea for ionic conductivity and drop of σ0. For higher fluoride
proportion, it was observed a rise in the conductivity of around one order of
magnitude. However, UV-Vis absorption curves demonstrate more presence of
W5+ species in samples with ≥ %. This leads to a mixed conductivity
of these materials.
In order to obtain maximum ionic conductivity, NaF and (NaPO3)n were replaced
by Li2O and (LiPO3)n respectively. Samples with composition x WO3 – 0.40
(LiPO3)n – (0.60-x) Li2O, with 0.30 ≤ ≤ 0.50; 0.40 WO3 – y (LiPO3)n – (0.60-
y) Li2O, with 0.30 ≤ ≤ 0.50 and z WO3 – (0.80-z) (LiPO3)n – 0.20 Li2O, with
0.30 ≤ ≤ 0.50; were also produced using the melting quenching methodology.
The three series of samples presented linear increase of Tg with their respective
substitutions, besides having good thermal stability (> 100 °). Raman and 31P
1D MAS-NMR spectroscopies data exhibited the influence of WO3 content on the
depolymerization of phosphate chains, as well as the formation of WO6 unit
clusters, when much tungsten is present. Although UV-Vis absorption spectra
indicate mixed conductivities in some samples, calculated values of ionic
conductivity show that the most conductive sample without presence of reduced
species reached 6.3 10−4Ω−1−1, comparable to conductive crystalline
samples. / Muitos vidros têm sido estudados como eletrólitos sólidos, a fim de substituírem eletrólitos líquidos comerciais. No entanto, mesmo para composições vítreas ótimas na literatura, valores de condutividade similares àqueles presentes pelos líquidos estão muito além do alcançado. Este trabalho pretende mostrar como as mudanças na estrutura, por meio da composição, podem
ajudar a aumentar a condutividade em vidros óxidos.
Amostras com composição x WO3 – 0,30 (NaPO3)n – (0,70-x) NaF, com 0,30 ≤ ≤ 0,60; foram produzidas por meio da metodologia fusão/resfriamento. Substituição de tungstênio por fluoreto de sódio gera um decréscimo linear da temperatura de transição vítrea, enquanto que a estabilidade permanece alta até = 40 % e decresce para alto teor de WO3. Dados de Espectroscopias Raman e 31P e 19F MAS-NMR mostram que pouco NaF leva a despolimerização das cadeias principais de fosfato, devido a formação de ligações − − . Além disso, átomo de flúor prefere ligar-se na forma − , com baixa proporção de tungstênio, ou em − , com alta proporção. Todas as amostras apresentaram mesmos valores calculados de energia de ativação para condutividade iônica e queda de σ0. Para maior proporção de fluoreto, observou-se um incremento por volta de uma ordem de magnitude. Entretanto, curvas de absorção no UV-Vis demonstrou a maior presença de espécies W5+ em amostras com ≥ 50 % . Isto leva a uma condutividade mista destes materiais.
A fim de se obter condutividade iônica máxima, NaF e (NaPO3)n foram substituídos por Li2O e (LiPO3)n respectivamente. Amostras com composições x WO3 – 0,40 (LiPO3)n – (0,60-x) Li2O, com 0,30 ≤ ≤ 0,50; 0,40 WO3 – y
(LiPO3)n – (0,60-y) Li2O, com 0,30 ≤ ≤ 0,50 e z WO3 – (0,80-z) (LiPO3)n – 0,20 Li2O, com 0,30 ≤ ≤ 0,50; também foram produzidas por meio da metodologia fusão/resfriamento. As três séries de amostras apresentaram incremento linear de Tg com suas respectivas substituições, além de terem boa estabilidade térmica (> 100 °). Dados de Espectroscopia Raman e 31P MAS-NMR registraram a influência do teor de WO3 na despolimerização das cadeias de fosfato, bem a formação de clusters de unidades de WO6, quando muito tungstênio se faz presente. Apesar de curvas de absorção no UV-Vis indicarem a
condutividade mista em algumas amostras, valores calculados de condutividade iônica mostram que a amostra mais condutora e sem a presença de espécies reduzidas, atingiu 6,3 10−4 Ω−1−1, comparável com amostras cristalinas condutoras. / CNPq: 141905/2013-1
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