NMR diffusion studies on lyotropic liquid crystalline systems

Orädd, Greger

January 1994

The pulsed field gradient fourier transform nuclear magnetic resonance (PFG-FTNMR) method to measure translational diffusion coefficients in multicomponent systems has been applied to amphiphilic molecules forming liquid crystalline phases. By analyzing the concentration dependence of the diffusion coefficients of water and amphiphile in a micellar system of N,N-dimethyldodecy lamine oxide (DDAO) in water it was possible to conclude that the micelles formed were polydisperse in size and shape. It was also shown that solubilization of small amounts of hydrophobic molecules into the micelles induces spherical micelles of a narrow size distribution. From the magnitude of the lateral diffusion coefficient in the cubic phase of DDAO/water it was concluded that this phase is built up of bicontinous aggregates. The lipid lateral diffusion in the cubic phase of monooleoylglycerol (MO)/water has been measured. The decrease in the lateral diffusion of MO in this phase, when the water was replaced by glycerol, was ascribed to changes in viscosity in the polar region. Measurements by electron spin resonance and time-resolved fluorescence spectroscopy showed that changes in viscosity of the solvent also affected the motions in the hydrocarbon region. The diffusion coefficients of all three components in the cubic phase located in the lowwater region of the ternary system of diacylglycerol (DAG)/soybean phosphatidylcholine (SPC)/water have been determined. Conclusive evidence was provided for that this cubic phase is built up of reversed micelles containing mainly SPC in a continous matrix of mainly DAG. The effect on the phase properties of DDAO upon incorporation of the peptide gramicidin D has been investigated. It was shown that gramicidin D induces a lamellar phase at all water contents. The change in the order parameter profile of the C-2H bonds in perdeuterated DDAO upon incorporation of gramicidin D is compatible with theoretical calculations for proteins exhibiting a positive hydrophobic mismatch. A method for using the PFG FTNMR technique in measurements of the transmembrane exchange rate of small molecules in vesicular suspensions is discussed and some preliminary data is shown. / <p>Diss. (sammanfattning) Umeå : Umeå universitet, 1994, härtill 4 uppsatser</p> / digitalisering@umu

Diffusion

pulsed field gradient

liquid crystalline systems

lipid lateral diffusion

cubic phases

peptide-lipid interactions

hydrophobic mismatch

permeability

Unipolar Charge-Sensing for Evaporated Large-Area Solid-State Photoconductors for Digital Radiography

Goldan, Amirhossein

14 February 2012

An alternative approach to energy integrating systems is photon counting which provides higher dose efficiency through efficient noise rejection and optimal energy weighting, and, moreover, is not susceptible to memory artifacts such as image lag and ghosting. The first large-area photon counting imager was Charpak's Nobel Prize winning invention of the gas-filled multiwire proportional chamber (MWPC), which revolutionized the field of radiation detection in 1968. In most applications, however, the use of a solid detection medium is preferable because solid densities are about three orders-of-magnitude greater than gas, and thus, they can yield much smaller detector dimensions with unsurpassed spatial and temporal resolution. Thus far, crystalline Cadmium Zinc Telluride is the only room-temperature solid-state detector that meets the requirements for photon counting imaging. However, the material is grown in small ingots and production costs are high for large-area imaging applications. The problem is that disordered (or non-crystalline) solids, which are easier and less expensive to develop over large-area than single crystalline solids, have been ruled out as viable photon counting detectors because of their poor temporal resolution, or more specifically, extremely low carrier mobilities and transit-time-limited photoresponse. To circumvent the problem of poor charge transport in disordered solids with a conventional planar detector structure, we propose unipolar charge sensing by establishing a strong near-field effect using an electrostatic shield within the material. We introduce the concept of time-differential photoresponse in unipolar solids and show that their temporal resolution can be improved substantially to reach the intrinsic physical limit set by spatial dispersion. Inspired by Charpak's MWPC and its variants, and for the first time, we have implemented an electrostatic shield inside evaporated amorphous selenium (a-Se) using the proposed lithography-based microstrip solid-state detector (MSSD). The fabricated devices are characterized with optical, x-ray, and gamma-ray impulse-like excitations. Using optical time-of-flight (TOF) measurements, we show for the first time a unipolar Gaussian TOF transient from the new MSSD structure, instead of a rectangular response with a Gaussian-integral at the tail which is a typical response of a conventional planar device. The measured optical and x-ray TOF results verify the time-differential property of the electrostatic shield and the practicality of the dispersion-limited photoresponse. Furthermore, we use single gamma-ray photon excitations to probe detector's temporal resolution in pulse mode for photon counting. For the MSSD, we show a depth-independent signal for photon absorption across the bulk and a reduction in signal risetime by a factor of 350, comparing performance limiting factors being hole-dispersion for the MSSD and electron-transit-time for the conventional planar device. The time-differential response obtained from the proposed unipolar detector structure enables disordered photoconductive films to become viable candidates for large-area photon counting applications.

Solid-State Detector

Radiation Detector

Medical Imaging

Disordered Solids

Non-Crystalline Semiconductors

Amorphous Semiconductors

Amorphous Selenium

Electrical and Computer Engineering

Thin-film piezoelectric-on-substrate resonators and narrowband filters

Abdolvand, Reza

17 January 2008

A new class of micromachined devices called thin-film piezoelectric-on-substrate (TPoS) resonators is introduced, and the performance of these devices in RF and sensor applications is studied. TPoS resonators benefit from high electromechanical coupling of piezoelectric transduction mechanism and superior acoustic properties of a substrate such as single crystal silicon. Therefore, the motional impedance of these resonators are significantly smaller compared to typical capacitively-transduced counterparts while they exhibit relatively high quality factor and power handling and can be operated in air. The combination of all these features suggests TPoS resonators as a viable alternative for current acoustic devices. In this thesis, design and fabrication methods to realize dispersed-frequency lateral-extensional TPoS resonators are discussed. TPoS devices are fabricated on both silicon-on-insulator and thin-film nanocrystalline diamond substrates. The performance of these resonators in simple and low-power oscillators is measured and compared. Furthermore, a unique coupling technique for implementation of high frequency filters is introduced in which dual resonance modes of a single resonant structure are coupled. The measured results of this work show that these filters are suitable candidates for single-chip implementation of multiple-frequency narrow-band filters with high out-of-band rejection in a small footprint.

Thin-film piezoelectric

Micro-resonator

Narrowband filter

Nano-crystalline diamond

Low-noise oscillator

Dielectric resonators

Piezoelectricity

Electric filters, Crystal

Desenvolvimento e caracterização físico-química de sistemas líquido cristalinos contendo palmitato de retinol :/ quantificação química, avaliação da atividade antioxidante, estudos de liberação e bioadesão in vitro /

Oliveira, Paula Lacerda.

January 2011

Resumo: As hipóteses mais modernas baseiam o processo de envelhecimento cutâneo em duas teorias: o intrínseco (ou cronológico) e o extrínseco (ou fotoenvelhecimento). Tanto no envelhecimento intrínseco como no extrínseco, as principais alterações da pele são caracterizadas por formação de rugas, flacidez e perda da elasticidade. O palmitato de retinol (PR) é um análogo sintético da vitamina A indicado topicamente para prevenir ou retardar algumas mudanças estruturais e funcionais da pele associadas ao processo de envelhecimento cutâneo, porém é um princípio ativo que apresenta estabilidade química limitada frente à umidade, oxigênio, ácidos, metais e exposição à luz. Assim, o objetivo deste trabalho foi desenvolver um sistema líquido-cristalino à base de silicone para a liberação prolongada e maximização da estabilidade do palmitato de retinol. Utilizando-se o método de titulação da fase aquosa, foram construídos dois diagramas ternários de fases, ambos constituídos por Procetyl AWS® (tensoativo) e água e por silicone DC 5330® (fase oleosa no diagrama 1) ou silicone DC 5329® (fase oleosa no diagrama 2). Nos estudos de estabilidade preliminar, as formulações do diagrama 1 (A, B, C e D) e do diagrama 2 (E, F, G e H) foram avaliadas nos seguintes estudos: microscopia de luz polarizada, centrifugação, pH, condutividade eletrolítica, índice de refração e reologia. Dentre estas formulações estudas preliminarmente, a formulação GPR foi selecionada para ser conduzida aos estudos posteriores após a incorporação de 1% do princípio ativo, pois demonstrou a formação de fases líquido-cristalinas evidenciadas sob luz polarizada no microscópio óptico, apresentou-se compatível com o pH fisiológico da pele, apresentou pequeno coeficiente de variação das medidas realizadas referentes aos parâmetros físico- químicos e menor capacidade de desestruturar... (Resumo completo, clicar acesso eletrônico abaixo) / Abstract: Current hypotheses based on the process of skin aging in two theories: the intrinsic (or chronological) and extrinsic (or photoaging). Both in the extrinsic as intrinsic aging, the main skin disorders are characterized by wrinkles, flaccidity and loss of elasticity. Retinyl palmitate (RP) is a synthetic analogue of vitamin A given topically to prevent or delay some structural and functional changes of the skin associated with aging, but is an active principle that has limited chemical stability against moisture, oxygen, acids , metals and exposure to light. Thus, the aim of this study was to develop liquid crystalline system silicon-based for extended release and maximizing the stability of retinyl palmitate in order to optimize the use of topically active principle in the prevention and / or mitigation of aging skin. Using the method of titration of the aqueous phase, was built two ternary phase diagrams, both consist of Procetyl AWS ® (surfactant) and water and silicone DC 5330 ® (oil phase diagram 1) or silicone DC 5329 ® (phase oil in diagram 2). In preliminary studies of stability, the formulations of the diagram 1 (A, B, C and D) and the formulations of the diagram 2 (E, F, G and H) were evaluated in the following studies: polarized light microscopy, centrifugation, pH, electrolitic conductivity, refraction index and rheology. Among these formulations studied preliminarily, the formulation G RP-loaded was selected to be conducted to further studies, since it showed the formation of liquid crystalline phases evidenced by polarized light in an optical microscope, presented consistent with the physiological pH of skin, had a small coefficient of variation of measurements related to the physicochemical and less ability to disrupt the lipid bilayer of the skin due to have a lower concentration of surfactant. The validated analytical methodology for chemical quantification of retinyl... (Complete abstract click electronic access below) / Orientador: Maria Virgínia Costa Scarpa / Coorientador: Marlus Chorilli / Banca: Eneida de Paula / Banca: Sandra Helena Pulcinelli / Mestre

Cosmeticos.

Pele.

Epiderme.

Dermatologia.

Antioxidantes.

Liquid crystalline systems. eng

Retinyl palmitate. eng

Release in vitro. eng

Biodhesion in vitro. eng

Optimisation et analyses des propriétés physico-chimiques et diélectriques du parylène D / Optimisation and analysis of physico-chemical and dielectriques properties of parylene D

Mokni, Marwa

17 December 2016

Ce travail est consacré à l’élaboration et à la caractérisation de couches minces de parylène D déposées par dépôt chimique en phase vapeur (CVD) sous forme de films de quelques microns d’épaisseur. L’objectif de l’étude est d’évaluer les potentialités de ce polymère en remplacement des parylènes de type N ou C pour des applications spécifiques ou encore pour l’intégrer dans de nouvelles applications. Une première étude a consisté à évaluer l’impact des paramètres des dépôts CVD (température de sublimation, température de pyrolyse, température du substrat d’accueil du film déposé) sur les changements physico-chimiques, structuraux et diélectriques du parylène D. Pour cela, nous nous sommes appuyés sur des analyses FTIR, XRD, DSC, TGA, AFM, SEM, DMA. Nous avons également appliqué des stress thermiques au parylène D dans le but d’évaluer leur performance à haute température (>200°C) ainsi que les changements opérés au niveau de la structure cristalline (taille des cristallites, pourcentage de cristallinité,…) ou encore la stabilité des propriétés thermiques (température de transition vitreuse, température de cristallisation, température de fusion) et diélectriques (constante diélectrique e’, facteur de dissipation tand et conductivité basse fréquence s’) Enfin, des analyses diélectriques en fréquence (de 0,1Hz à 100 kHz) sur une large plage de température de fonctionnement (-140°C – 350°C) ont permis de mettre en évidence la présence de trois mécanismes de relaxations (a, b, g), une polarisation d’interface de type Maxwell-Wagner-Sillars et une polarisation d’électrode. Les performances diélectriques sont également discutées par comparaison aux parylènes de type N et C plus couramment utilisés aujourd’hui dans les applications industrielles. Cette étude permet ainsi de disposer maintenant de paramètres de dépôt CVD bien contrôlés pour le dépôt de films de parylènes D aux propriétés souhaitées pour une application spécifique / This work is mainly focused on the elaboration and the characterization of parylene D thin films of few micrometers deposited by chemical vapor deposition (CVD). The goal of this study is to evaluate the potentialities of this polymer in order to replace the parylene N or C for specific applications or to integrate it in new applications. A first study consisted in evaluating the impact of the CVD process parameters (temperature of sublimation, temperature of pyrolysis, substrate temperature) on the surface morphology, the molecular structure and dielectric changes of parylene D. For that, we were based on several analyzes techniques as FTIR, XRD, DSC, TGA, AFM, SEM, DMA. Thermal stresses were applied to parylene D to evaluate their performance at high temperature (>200°C) and the changes on the crystal structure (size of crystallites, percentage of crystallinity,…) or the stability of the thermal properties (temperature of transition, temperature of crystallization, melting point) and dielectric properties (the dielectric permittivity, the dissipation factor, the electrical conductivity and the electric modulus). Dielectric and electrical properties of Parylene D were investigated by dielectric spectroscopy in a wide temperature ranges from -140°C to 350°C and frequency from 0.1 Hz to 1 MHz, respectively. (a, b and g)-relaxation mechanisms, interfacial polarization related to Maxwell-Wagner-Sillars and electrode polarization have been identified in this polymers. The dielectric performances of Parylene D have been also compared with parylenes N and C which are used in wide industrial applications. Optimized and controlled conditions of the CVD process of parylenes D are proposed in this work in relation to the properties. The obtained results open a new way for specific applications.

Parylène

Polymère

Spectroscopie diélectrique

Semi-Cristallin

Isolant

Couche mince

Parylene

Polymer

Dielectric spectroscopy

Semi-Crystalline

Insulating material

Thin film

530

Ferritas 'MG IND. 1' - 'delta'ZN''delta''FE' IND. 2'O IND. 4' obtidas por síntese de reação de combustão : caracterização estrutural e nanoestrutural /

Góes, Márcio de Sousa.

January 2006

Resumo: Os espinélios compreendem um grande grupo de compostos com aplicações tecnológicas, sendo que tais aplicações são, fundamentalmente, por sua capacidade de acomodar diferentes cátions em sua estrutura cristalina e essas propriedades estão diretamente correlacionadas ao método de preparação. Neste trabalho as ferritas...(Resumo completo, clicar acesso eletrônico abaixo) / Abstract: The spinels include a great group of composites with technological applications, being that such applications are, basically, for its capacity to accommodate different cations in its crystalline structure and these properties directly are correlated to the preparation method. In this work the ferrites...(Complete abstract, click electronic address below) / Orientador: Carlos de Oliveira Paiva Santos / Coorientador: Lucianna da Gama F. Vieira / Banca: Elisabete Inácio Santiago / Banca: Paulo Roberto Bueno / Mestre

Raios X - Difração.

Rietvedl, Método de.

Ferrita.

X-rays - Diffraction. eng

Method of Rietvedl. eng

Ferrite. eng

Crystalline structure. eng

Localização eletrônica de sistemas aperiódicos em uma dimensão / Electronic localization of aperiodic systems in one dimension

Isis Albuquerque de Souza Maranhão

16 December 2014

Coordenação de Aperfeiçoamento de Pessoal de Nível Superior / Desde a descoberta do estado quasicristalino por Daniel Shechtman et al. em 1984 e da fabricação por Roberto Merlin et al. de uma superrede artificial de GaAs/ AlAs em 1985 com características da sequência de Fibonacci, um grande número de trabalhos teóricos e experimentais tem relatado uma variedade de propriedades interessantes no comportamento de sistemas aperiódicos. Do ponto de vista teórico, é bem sabido que a cadeia de Fibonacci em uma dimensão se constitui em um protótipo de sucesso para a descrição do estado quasicristalino de um sólido. Dependendo da regra de inflação, diferentes tipos de estruturas aperiódicas podem ser obtidas. Esta diversidade originou as chamadas regras metálicas e devido à possibilidade de tratamento analítico rigoroso este modelo tem sido amplamente estudado. Neste trabalho, propriedades de localização em uma dimensão são analisadas considerando-se um conjunto de regras metálicas e o modelo de ligações fortes de banda única. Considerando-se o Hamiltoniano de ligações fortes com um orbital por sítio obtemos um conjunto de transformações relativas aos parâmetros de dizimação, o que nos permitiu calcular as densidades de estados (DOS) para todas as configurações estudadas. O estudo detalhado da densidade de estados integrada (IDOS) para estes casos, mostra o surgimento de plateaux na curva do número de ocupação explicitando o aparecimento da chamada escada do diabo" e também o caráter fractal destas estruturas. Estudando o comportamento da variação da energia em função da variação da energia de hopping, construímos padrões do tipo borboletas de Hofstadter, que simulam o efeito de um campo magnético atuando sobre o sistema. A natureza eletrônica dos auto estados é analisada a partir do expoente de Lyapunov (&#947;), que está relacionado com a evolução da função de onda eletrônica ao longo da cadeia unidimensional. O expoente de Lyapunov está relacionado com o inverso do comprimento de localização (&#958;= 1 /&#947;), sendo nulo para os estados estendidos e positivo para estados localizados. Isto define claramente as posições dos principais gaps de energia do sistema. Desta forma, foi possível analisar o comportamento autossimilar de cadeias com diferentes regras de formação. Analisando-se o espectro de energia em função do número de geração de cadeias que seguem as regras de ouro e prata foi feito, obtemos conjuntos do tipo-Cantor, que nos permitiu estudar o perfil do calor específico de uma cadeia e Fibonacci unidimensional para diversas gerações / Since the discovery of a quasicrystalline state by Daniel Shechtman et al. in 1984 and the growth of artificial GaAs/AlAs superlattices on nonperiodic Fibonacci sequence by Roberto Merlin et al., a number of theoretical and experimental works have reported a variety of interesting physical properties of aperiodic systems. Theoretically, it is well known that in one dimension, the Fibonacci chain is a successful prototype to describe a quasicrystalline state. Depending on the in ation rule, different kinds of aperiodic structures can be obtained. This diversity originates the called metallic means, and due to the possibility of analytical and rigorous mathematical treatments the Fibonacci model has been applied by several authors. In this work, electronic localization properties are studied, taking into account a set of metallic means in one dimension. Considering a single band tight-binding Hamiltonian, a set of decimation transformations is obtained allowing the calculation of the Density of States (DOS) for all configurations. The detailed study of the Integrated Density of States (IDOS), shows the appearance of plateaux in the occupation number curve exhibiting the so-called "devil's staircase"indicating the fractal nature of the structures. Studying the behavior of the energy as a function of the hopping we derive Hofstadter butter y type patters, which simulate the effect of a magnetic field acting on the system. The electronic nature of the eigenstate is analyzed by looking at the Lyapunov exponent which is related to the evolution of the electronic wave unction along the one dimensional chain. Since it is zero for an extended state and positive for a localized one, defining the main gaps positions, it is related to the inverse of the localization length. Through a careful analysis of the Lyapunov curves it was also possible to obtain the perfect self-similarity structures for all chains. In particular,for the chains that follow the golden and silver rules, the study of the energy behavior was done by analyzing the energy spectrum as a function of the generation number of each one of the chains. The results yield Cantor-like sets, which allowed us to calculate the specific heat profile for several generations of the one-dimensional Fibonacci chain.

Calor específico

Densidade de estados

Sistemas quasiperiódicos

Sistemas cristalinos

Density of states

Crystalline system

Quasiperiodic system

Specific heat

CIENCIA DA COMPUTACAO

Ferritas 'MG IND. 1' - 'delta'ZN''delta''FE' IND. 2'O IND. 4' obtidas por síntese de reação de combustão: caracterização estrutural e nanoestrutural

Góes, Márcio de Sousa [UNESP]

20 January 2006

Made available in DSpace on 2014-06-11T19:24:49Z (GMT). No. of bitstreams: 0 Previous issue date: 2006-01-20Bitstream added on 2014-06-13T19:31:54Z : No. of bitstreams: 1 goes_ms_me_bauru_prot.pdf: 10083876 bytes, checksum: 94a71b64f0fd1aecca45156ef778d101 (MD5) / Fundação de Amparo à Pesquisa do Estado de São Paulo (FAPESP) / Os espinélios compreendem um grande grupo de compostos com aplicações tecnológicas, sendo que tais aplicações são, fundamentalmente, por sua capacidade de acomodar diferentes cátions em sua estrutura cristalina e essas propriedades estão diretamente correlacionadas ao método de preparação. Neste trabalho as ferritas... / The spinels include a great group of composites with technological applications, being that such applications are, basically, for its capacity to accommodate different cations in its crystalline structure and these properties directly are correlated to the preparation method. In this work the ferrites...(Complete abstract, click electronic address below)

Raio X - Difração

Rietvedl, Método de

Ferrita

Espinélio

Estrutura cristalina

X-rays - Diffraction

Method of Rietvedl

Ferrite

Crystalline structure

Resposta espectral de células fotovoltaicas em condições reais de operação / Spectral response of silicon photovoltaic cells under real-use conditions

Gouvêa, Evaldo Chagas [UNESP]

22 April 2017

Submitted by Evaldo Chagas Gouvêa null (gouvea.evaldo@gmail.com) on 2017-06-24T18:23:39Z No. of bitstreams: 1 Dissertação (versão FINAL 24-06-17).pdf: 2860581 bytes, checksum: 291ca83eac21bea9374f8dc5c9b080ed (MD5) / Approved for entry into archive by Luiz Galeffi (luizgaleffi@gmail.com) on 2017-06-28T16:53:32Z (GMT) No. of bitstreams: 1 gouvea_ec_me_guara.pdf: 2860581 bytes, checksum: 291ca83eac21bea9374f8dc5c9b080ed (MD5) / Made available in DSpace on 2017-06-28T16:53:32Z (GMT). No. of bitstreams: 1 gouvea_ec_me_guara.pdf: 2860581 bytes, checksum: 291ca83eac21bea9374f8dc5c9b080ed (MD5) Previous issue date: 2017-04-22 / Conselho Nacional de Desenvolvimento Científico e Tecnológico (CNPq) / Uma das alternativas à utilização de combustíveis fósseis é a energia solar, obtida pelo uso de painéis fotovoltaicos. A existência de diferenças diárias, sazonais e regionais na distribuição espectral da luz do sol pode produzir variações na capacidade de produção de energia dos painéis. O objetivo deste trabalho é verificar como a geração de energia de células fotovoltaicas varia em função dos diferentes comprimentos de onda do espectro da luz solar, quando as células estão submetidas a condições reais de operação. Este trabalho possui caráter experimental. Dois painéis fotovoltaicos policristalinos idênticos foram montados lado a lado. Oito diferentes filtros de cor, com curvas conhecidas de distribuição espectral, foram instalados sobre um dos painéis e foi registrada a quantidade de energia gerada por cada painel ao longo do dia. Cada filtro permite apenas a passagem de uma determinada faixa de comprimentos de onda da luz solar. Foi calculada a eficiência relativa de cada filtro, dada pela relação entre a quantidade de energia gerada pelo painel com filtro e a gerada pelo painel sem filtro, de referência. Os resultados indicam que os painéis produzem mais energia na faixa do vermelho, com eficiência relativa de 23,83%, sendo, portanto, mais sensíveis à radiação nesta faixa de comprimentos de onda. Por outro lado, ocorre uma redução da resposta do painel na faixa do verde e azul, apresentando eficiências de 19,15% e 21,58% respectivamente. Isso mostra que painéis fotovoltaicos não respondem de maneira uniforme à luz solar. A radiação infravermelha, além de produzir um aumento de temperatura, exerce um importante papel na produção total de energia, com eficiência de 13,56%. Conclui-se que painéis de silício cristalino não respondem de maneira uniforme à luz solar. Os painéis produzem energia nas faixas não-visíveis do espectro; sendo o infravermelho um importante componente do espectro. As respostas espectrais em condições reais de operação apresentam diferenças significativas em relação àquelas obtidas nas condições padrão de ensaio. / Solar energy is an alternative to fossil fuels. It can be obtained through the use of photovoltaic panels. There are daily, seasonal and regional differences in the spectral energy distribution of sunlight that can result in variations in the energy production capacity of the panels. The objective of this study is the verification of the photovoltaic cell’s response to different wavelengths of the sunlight’s spectrum, under real operating conditions. This is an experimental study. Two identical polycrystalline photovoltaic modules were mounted side-by-side. Eight different color filters, each one with a specific spectral distribution curve, were installed above one of the panels and the daily generated energy of each panel was registered. Each color filter allows just a specific wavelength range of solar spectrum to pass through it. The relative efficiency of each filter was calculated; it is given by the relation between the energy generated by the solar panel with filter and the solar panel without filter. The results indicate that the panels produce more power in the red range (with a relative efficiency of 23.83%) and therefore they are more sensitive to radiation at this wavelength range. Also, the panel’s response is reduced in the color ranges of green and blue, with efficiency of 19.15% and 21.58%, respectively. This shows that photovoltaic panels do not respond uniformly to sunlight. Infrared radiation, which leads to an increased temperature, plays an important role in the total energy production. The relative efficiency of infrared filter is 13.56%. It can be concluded that crystalline silicon photovoltaic modules do not respond uniformly to sunlight. Photovoltaic panels are able to produce energy not only with visible light but also with non-visible wavelengths, being infrared an important component of solar spectrum. The spectral responses under real operating conditions are significantly different from the responses obtained at the standard test conditions. / CNPq: 134367/2015-4

Energia solar

Células fotovoltaicas

Silício cristalino

Espectro solar

Eficiência energética

Solar energy

Photovoltaic cells

Crystalline silicon

Solar spectrum

Energy efficiency

Localização eletrônica de sistemas aperiódicos em uma dimensão / Electronic localization of aperiodic systems in one dimension

Isis Albuquerque de Souza Maranhão

16 December 2014

Coordenação de Aperfeiçoamento de Pessoal de Nível Superior / Desde a descoberta do estado quasicristalino por Daniel Shechtman et al. em 1984 e da fabricação por Roberto Merlin et al. de uma superrede artificial de GaAs/ AlAs em 1985 com características da sequência de Fibonacci, um grande número de trabalhos teóricos e experimentais tem relatado uma variedade de propriedades interessantes no comportamento de sistemas aperiódicos. Do ponto de vista teórico, é bem sabido que a cadeia de Fibonacci em uma dimensão se constitui em um protótipo de sucesso para a descrição do estado quasicristalino de um sólido. Dependendo da regra de inflação, diferentes tipos de estruturas aperiódicas podem ser obtidas. Esta diversidade originou as chamadas regras metálicas e devido à possibilidade de tratamento analítico rigoroso este modelo tem sido amplamente estudado. Neste trabalho, propriedades de localização em uma dimensão são analisadas considerando-se um conjunto de regras metálicas e o modelo de ligações fortes de banda única. Considerando-se o Hamiltoniano de ligações fortes com um orbital por sítio obtemos um conjunto de transformações relativas aos parâmetros de dizimação, o que nos permitiu calcular as densidades de estados (DOS) para todas as configurações estudadas. O estudo detalhado da densidade de estados integrada (IDOS) para estes casos, mostra o surgimento de plateaux na curva do número de ocupação explicitando o aparecimento da chamada escada do diabo" e também o caráter fractal destas estruturas. Estudando o comportamento da variação da energia em função da variação da energia de hopping, construímos padrões do tipo borboletas de Hofstadter, que simulam o efeito de um campo magnético atuando sobre o sistema. A natureza eletrônica dos auto estados é analisada a partir do expoente de Lyapunov (&#947;), que está relacionado com a evolução da função de onda eletrônica ao longo da cadeia unidimensional. O expoente de Lyapunov está relacionado com o inverso do comprimento de localização (&#958;= 1 /&#947;), sendo nulo para os estados estendidos e positivo para estados localizados. Isto define claramente as posições dos principais gaps de energia do sistema. Desta forma, foi possível analisar o comportamento autossimilar de cadeias com diferentes regras de formação. Analisando-se o espectro de energia em função do número de geração de cadeias que seguem as regras de ouro e prata foi feito, obtemos conjuntos do tipo-Cantor, que nos permitiu estudar o perfil do calor específico de uma cadeia e Fibonacci unidimensional para diversas gerações / Since the discovery of a quasicrystalline state by Daniel Shechtman et al. in 1984 and the growth of artificial GaAs/AlAs superlattices on nonperiodic Fibonacci sequence by Roberto Merlin et al., a number of theoretical and experimental works have reported a variety of interesting physical properties of aperiodic systems. Theoretically, it is well known that in one dimension, the Fibonacci chain is a successful prototype to describe a quasicrystalline state. Depending on the in ation rule, different kinds of aperiodic structures can be obtained. This diversity originates the called metallic means, and due to the possibility of analytical and rigorous mathematical treatments the Fibonacci model has been applied by several authors. In this work, electronic localization properties are studied, taking into account a set of metallic means in one dimension. Considering a single band tight-binding Hamiltonian, a set of decimation transformations is obtained allowing the calculation of the Density of States (DOS) for all configurations. The detailed study of the Integrated Density of States (IDOS), shows the appearance of plateaux in the occupation number curve exhibiting the so-called "devil's staircase"indicating the fractal nature of the structures. Studying the behavior of the energy as a function of the hopping we derive Hofstadter butter y type patters, which simulate the effect of a magnetic field acting on the system. The electronic nature of the eigenstate is analyzed by looking at the Lyapunov exponent which is related to the evolution of the electronic wave unction along the one dimensional chain. Since it is zero for an extended state and positive for a localized one, defining the main gaps positions, it is related to the inverse of the localization length. Through a careful analysis of the Lyapunov curves it was also possible to obtain the perfect self-similarity structures for all chains. In particular,for the chains that follow the golden and silver rules, the study of the energy behavior was done by analyzing the energy spectrum as a function of the generation number of each one of the chains. The results yield Cantor-like sets, which allowed us to calculate the specific heat profile for several generations of the one-dimensional Fibonacci chain.

Calor específico

Densidade de estados

Sistemas quasiperiódicos

Sistemas cristalinos

Density of states

Crystalline system

Quasiperiodic system

Specific heat

CIENCIA DA COMPUTACAO