Determinação de parâmetros ópticos de materiais por análise de Kramers-Kronig de espectros de infravermelho /

Santos, Augusto Flávio de Souza.

January 2008

Orientador: João Carlos Silos Moraes / Banca: José de Los Santos Guerra / Banca: Roberto Luiz Moreira / Resumo: Na caracterização das propriedades ópticas em materiais, a determinação dos parâmetros ópticos como o índice de refração (n) e o coeficiente de extinção (k) são fundamentais. A análise da dispersão dos parâmetros ópticos com a freqüência fornece informações do comportamento da polarização do material com a radiação e as relações de Kramers-Kronig representam uma ferramenta básica de estudo. Neste trabalho, o principal objetivo é determinar parâmetros ópticos (n e k) e dielétricos do sistema vítreo telureto ((20-x)Li2O-xWO3-80TeO2) através da análise de espectro infravermelho pelas relações de Kramers-Kronig. Para tanto, amostras de vidro na composição x = 0, 5, 10 e 15 %mol foram sintetizadas no laboratório do grupo Vidros e Cerâmicas. As amostras foram polidas opticamente e seus espectros de refletância foram obtidos nos espectrômetros Bomem DA8 e Nexus 670 da Nicolet, na região entre 40 e 4000 cm-1. Os espectros obtidos apresentam picos de reflexão característicos observados em outros sistemas vítreos telureto, o que permitiu identificar as bandas vibracionais. As constantes ópticas foram obtidas utilizando as relações de Kramers-Kronig. Para todas as composições estudadas foi observado um aumento no índice de refração quando se aumentou a quantidade de WO3. Do espectro obtido para a constante dielétrica foi possível determinar as freqüências correspondentes aos modos ópticos transversais e longitudinais. As freqüências obtidas se ajustam com aquelas obtidas pelo modelo analítico dos quatro parâmetros semi-quânticos da constante dielétrica, principalmente para a região acima de 500 cm-1. / Abstract: In the study of optical and dielectric properties of materials, the determination of complex indices of refraction and complex dielectric function is fundamental. The analysis of the dispersion of the optical parameters with the frequency provides information about the behavior of the polarization of the material with the radiation, and the Kramers-Kronig relations represent a basic tool of the study. In this work, the main objective was to determine the optical (n and k) and dielectric parameters of a tellurite glasses system ((20-x)Li2O-xWO3-80TeO2) through the infrared spectrum analysis by Kramers-Kronig dispersion relations. For this, glass samples with x=0, 5, 10, and 15 %mol were prepared at the laboratory of Glasses and Ceramics group. The glass samples were polished and their reflectance spectra were obtained in the Bomem DA8 and Nicolet Nexus 670 spectrometers, in the spectral range of 40 to 4000 cm-1. The obtained spectra present allowed us to assign the vibrational bands. The optical and dielectric constants were obtained by the Kramers-Kronig method. For all studied glass compositions an increase was observed in the real part of refractive index when the WO3 content is increased. From de obtained dielectric function it was possible to extract transversal and longitudinal optical phonons frequencies. The frequencies agree with those obtained by the four-parameter semiquantum model, mainly for the region above 500 cm-1. / Mestre

Espectroscopia de infravermelho.

Kramer-Kronig relations. eng

Tellurites glasses. eng

Estudo de polímeros comerciais tratados a plasma em pressão atmosférica /

Santos, Alessandro Luiz Ribeiro dos.

January 2010

Resumo: Materiais poliméricos têm sido amplamente utilizados em várias áreas tecnológicas e biomédicas, devido às suas excelentes propriedades mecânicas, térmicas e elétricas. No entanto, estes materiais têm baixa energia de superfície e, portanto, não aderem facilmente a outros materiais. Por isso, para muitas aplicações é necessário modificar a superfície do polímero, a fim de aumentar a sua energia de superfície. Tratamentos a plasma à pressão atmosférica têm sido muito utilizados para modificar as propriedades superficiais de polímeros comerciais, devido aos baixos custos do processo. Este trabalho apresenta os resultados do tratamento de tereftalato de polietileno (PET), poliuretano (PU) e de politetrafluoretileno (PTFE) em plasma de descargas com barreira dielétrica (DBD) em ar, nitrogênio e argônio, à pressão atmosférica. As superfícies tratadas foram caracterizadas por medidas de ângulo de contato, espectroscopia de fotoelétrons de raios-X (XPS) e microscopia de força atômica (AFM). A superfície polimérica, modificada nas DBD a pressão atmosférica, mostraram uma redução significativa no ângulo de contato da água, embora uma recuperação parcial da molhabilidade ocorresse nos primeiros dias após o tratamento. Todavia, a recuperação foi insuficiente para que as amostras tratadas recuperassem a sua molhabilidade original. Análises de XPS mostraram um aumento na concentração de oxigênio na superfície, devido à formação de grupos polares, tais como C-O e OC= O. Um pequeno aumento na concentração de nitrogênio também foi observada. Imagens de AFM mostraram um aumento da rugosidade de polímeros tratados, decorrentes da interação física entre as espécies geradas na descarga e a superfície do polímero. A superfície ativada e a elevada tensão superficial dos polímeros tratados devem levar a um aumento da aderência do polímero. / Abstract: Polymeric materials have been widely used in various biomedical and technological applications, due to their excellent mechanical, thermal and electric properties. However, these materials have low surface energy, and thus not easily adhere to other materials. Therefore, for many applications it is necessary to modify the polymer surface in order to increase its surface energy. Plasma treatments at atmospheric pressure have been frequently used to modify the surface properties of commercial polymers, due to their low process costs. This work reports the results of polyethylene terephthalate (PET), polyurethane (PU) and polytetrafluoroethylene (PTFE) treatments in plasma by dielectric barrier discharges (DBDs) in air, nitrogen and argon at atmospheric pressure. The plasma-modified surfaces were characterized by contact angle measurements, X-ray photoelectron spectroscopy (XPS) and atomic force microscopy (AFM). The polymer surface, modified by DBD at atmospheric pressure, showed a significant decrease in water contact angle although a partial recovery of the surface wettability occurred during the first few days after the treatment. However, the process of hydrophobic recovery was insufficient for complete recovering of the samples original wettability. XPS analysis showed an increase of the oxygen concentration on the surface, due to the formation of polar groups, such as C-O and OC= O. A small increase in the concentration of nitrogen was also observed. AFM images exhibit an increased roughness of the treated polymers because of the physical interaction between the species generated in the discharge and the polymer surface. The activated surface and high surface tension of treated polymers should promote an enhancement of the polymer adhesion to paints and coatings. / Orientador: Konstantin Georgiev Kostov / Coorientador: Roberto Yzumi Honda / Banca: Konstantin Georgiev Kostov / Banca: Rogério Pinto Mota / Banca: Gilberto Petraconi Filho / Mestre

Polímeros.

Plasma (Gases ionizados)

Plasma. eng

Dielectric Barrier Discharge (DBD)

Polymers. eng

Mechanisms of Microwave Loss Tangent in High Performance Dielectric Materials

January 2013

abstract: The mechanism of loss in high performance microwave dielectrics with complex perovskite structure, including Ba(Zn1/3Ta2/3)O3, Ba(Cd1/3Ta2/3)O3, ZrTiO4-ZnNb2O6, Ba(Zn1/3Nb2/3)O3, and BaTi4O9-BaZn2Ti4O11, has been investigated. We studied materials synthesized in our own lab and from commercial vendors. Then the measured loss tangent was correlated to the optical, structural, and electrical properties of the material. To accurately and quantitatively determine the microwave loss and Electron Paramagnetic Resonance (EPR) spectra as a function of temperature and magnetic field, we developed parallel plate resonator (PPR) and dielectric resonator (DR) techniques. Our studies found a marked increase in the loss at low temperatures is found in materials containing transition metal with unpaired d-electrons as a result of resonant spin excitations in isolated atoms (light doping) or exchange coupled clusters (moderate to high doping) ; a mechanism that differs from the usual suspects. The loss tangent can be drastically reduced by applying static magnetic fields. Our measurements also show that this mechanism significantly contributes to room temperature loss, but does not dominate. In order to study the electronic structure of these materials, we grew single crystal thin film dielectrics for spectroscopic studies, including angular resolved photoemission spectroscopy (ARPES) experiment. We have synthesized stoichiometric Ba(Cd1/3Ta2/3)O3 [BCT] (100) dielectric thin films on MgO (100) substrates using Pulsed Laser Deposition. Over 99% of the BCT film was found to be epitaxial when grown with an elevated substrate temperature of 635 C, an enhanced oxygen pressures of 53 Pa and a Cd-enriched BCT target with a 1 mol BCT: 1.5 mol CdO composition. Analysis of ultra violet optical absorption results indicate that BCT has a bandgap of 4.9 eV. / Dissertation/Thesis / Ph.D. Materials Science and Engineering 2013

Materials Science

Defects

Dielectric resonator

Loss tangent mechanisms

Microwave dielectrics

Perovskite

Wireless communication

Application of Effective Medium Modeling to Plasmonic Nanosphere Waveguides

January 2013

abstract: A proposed visible spectrum nanoscale imaging method requires material with permittivity values much larger than those available in real world materials to shrink the visible wavelength to attain the desired resolution. It has been proposed that the extraordinarily slow propagation experienced by light guided along plasmon resonant structures is a viable approach to obtaining these short wavelengths. To assess the feasibility of such a system, an effective medium model of a chain of Noble metal plasmonic nanospheres is developed, leading to a straightforward calculation of the waveguiding properties. Evaluation of other models for such structures that have appeared in the literature, including an eigenvalue problem nearest neighbor approximation, a multi- neighbor approximation with retardation, and a method-of-moments method for a finite chain, show conflicting expectations of such a structure. In particular, recent publications suggest the possibility of regions of invalidity for eigenvalue problem solutions that are considered far below the onset of guidance, and for solutions that assume the loss is low enough to justify perturbation approximations. Even the published method-of-moments approach suffers from an unjustified assumption in the original interpretation, leading to overly optimistic estimations of the attenuation of the plasmon guided wave. In this work it is shown that the method of moments approach solution was dominated by the radiation from the source dipole, and not the waveguiding behavior claimed. If this dipolar radiation is removed the remaining fields ought to contain the desired guided wave information. Using a Prony's-method-based algorithm the dispersion properties of the chain of spheres are assessed at two frequencies, and shown to be dramatically different from the optimistic expectations in much of the literature. A reliable alternative to these models is to replace the chain of spheres with an effective medium model, thus mapping the chain problem into the well-known problem of the dielectric rod. The solution of the Green function problem for excitation of the symmetric longitudinal mode (TM01) is performed by numerical integration. Using this method the frequency ranges over which the rod guides and the associated attenuation are clearly seen. The effective medium model readily allows for variation of the sphere size and separation, and can be taken to the limit where instead of a chain of spheres we have a solid Noble metal rod. This latter case turns out to be the optimal for minimizing the attenuation of the guided wave. Future work is proposed to simulate the chain of photonic nanospheres and the nanowire using finite-difference time-domain to verify observed guided behavior in the Green's function method devised in this thesis and to simulate the proposed nanosensing devices. / Dissertation/Thesis / M.S. Electrical Engineering 2013

Electromagnetics

Electrical engineering

Optics

dielectric waveguide

effective medium

green function

lossy waveguide

plasmonics

plasmonic waveguide

Elaboration et optimisation des composites comportant des nanotubes de carbone pour le stockage de l'énergie électrique / Elaboration and optimization of carbon nanotube-based polymer composites for electrical energy storage

Yuan, Jinkai

18 September 2012

L'augmentation croissante de la demande en énergie et l'épuisement des combustibles fossiles exigent l'amélioration de l'efficacité de l'utilisation de l'énergie ainsi que la recherche de ressources durables et renouvelables. Les condensateurs sont des systèmes de stockage de l'énergie qui se sont imposés comme une des solutions aux problèmes énergétiques en raison de leurs avantages, tels que le respect de l'environnement, et la charge et la décharge d'énergie très rapides. Des besoins se sont créés pour un système de stockage capacitif à faible coût et à haut rendement, il est donc nécessaire de développer des matériaux avec une forte permittivité diélectrique. A ce propos, les composites diélectriques à matrice polymère suscitent une attention croissante en raison de leurs bonnes performances diélectriques. Des composites à matrice polymère chargée de particules céramiques ont par exemple été utilisés dans certains condensateurs pour le stockage d'énergie. Pourtant, en pratique, l'applicabilité de tels dispositifs est sérieusement entravée par la faible permittivité diélectrique des matériaux d'une part, et par la détérioration des propriétés mécaniques en raison de la forte teneur en particules céramiques rigides dans la matrice polymère flexible d'autre part. En remplaçant ces particules céramiques par des particules conductrices dans la matrice polymère, des composites percolatifs peuvent être réalisés avec une permittivité diélectrique nettement accrue au voisinage du seuil de percolation. Parmi les charges conductrices, les nanotubes de carbone (NTC) ont été les plus étudiés. En effet, du fait de leur facteur d'aspect et de leur conductivité élevée, ces derniers peuvent conduire à des niveaux de percolation dans les composites pour une très faible quantité de charges. Un des plus grands défis pour l'utilisation des NTC dans les matériaux composites est de séparer les NTC les uns des autres afin de réaliser une dispersion uniforme dans les polymères. Les travaux présentés dans cette thèse ont porté sur l'augmentation de la permittivité diélectrique de matériaux composites à matrice polymère à base de NTC en optimisant à la fois la dispersion des nanotubes ainsi que le contrôle de la microstructure des matériaux composites finaux. L'augmentation de la permittivité diélectrique dans les composites précédents provient de la formation de microcondensateurs au sein du matériau. Toutefois, les NTC ont toujours tendance à s'agglomérer dans le composite, ce qui n'est pas bénéfique à la formation de microcondensateurs. Pour surmonter ce problème, nous avons proposé une microarchitecture hybride SiC-NTC comme charge conductrice. Ces hybrides mulit-échelles ont été produits par dépôt chimique catalytique en phase vapeur assisté par aérosol. L'organisation des NTC sur les particules de SiC peut être efficacement contrôlée en ajustant les différents paramètres de synthèse. Les résultats ont montré que les propriétés de surface asymétriques des micro-particules de SiC étaient plutôt favorables à la croissance des NTC sur SiC selon "une direction unique", alors que certaines conditions expérimentales particulières peuvent aboutir à une croissance "multi-directionnelle". Les particules hybrides de SiC-NTC ainsi obtenues ont également été incorporées dans le PVDF pour préparer des composites percolatifs. Il a été constaté que les hybrides SiC-NTC permettent d'améliorer considérablement la permittivité diélectrique du composite avec un chargement extrêmement faible en NTC. Les NTC sont orientés le long d'un axe sur chaque microplaque de SiC et séparés par une couche mince de polymère, donnant lieu à un réseau de microcondensateurs. Par conséquent, de grandes permittivités diélectriques de plus de 8700 et 2100 à 100 Hz peuvent être obtenues pour un faible taux de chargement de NTC de l'ordre de 2,30% et 1,48% en volume pour les composites à renforts "multi-directionnel" et "unidirectionnel" respectivement. / Ever-increasing energy requirement and exhaustion of fossil fuels demands improving efficiency of energy usage as well as seeking sustainable and renewable resources. Energy storage capacitors are devices that could take this responsibility, and have been the focus of increasing attention due to their advantages such as environment friendliness and very fast energy uptake and delivery. As the requirements grow for a low-cost and high-efficiency capacitive storage system, there is great need for the development of materials with high dielectric permittivity. Polymer composite dielectrics are arousing increasing attention due to their large tunability in dielectric performances. Polymer composites filled with ceramic particles have been used in some energy storage capacitors. Still, their applicability for practical devices is severely hindered by the low dielectric permittivity and deteriorated mechanical and processing properties due to the high content of rigid ceramic particles in the flexible polymer matrix. By replacing ceramic particles with conductive particles in the polymer composites, the percolative polymer composites can be made with the dielectric permittivity dramatically increased in the vicinity of the percolation threshold. Among the conductive fillers, carbon nanotubes (CNTs) have been most intensively studied, as their large aspect ratio coupled with high conductivity can lead to percolation levels in composites at much low loading. One of the greatest challenges for CNT usage in composites is to debundle pristine CNTs and realize uniform dispersion into polymers. This thesis focused on increasing the dielectric permittivity of CNT-based polymer composites by both carefully optimizing the dispersion of nanotubes as well as controlling the microstructure of the composites. The dielectric permittivity increment in the previous composite systems originated from the formation of microcapacitors. However, CNTs were always frizzy in the CNT/polymer composites, which was not beneficial in forming parallel pair electrodes of microcapacitors. To overcome this problem, we proposed a microarchitecture of hybrid SiC-CNT as conductive filler. Such micro/nano hybrids were produced by floating catalytic chemical vapor deposition. The organization mode of CNTs on SiC particles could be effectively tuned by adjusting synthesis conditions. The results showed that asymmetric surface properties of 6H-SiC were prone to led to “single-direction” growth of CNTs on SiC particles, while the competition between the substrate nature and the experimental conditions can resulted in a “multi-directions” hybrid structure. Resultant SiC-CNT hybrids were further incorporated into PVDF to prepare percolative composites. It was found that the SiC-CNT hybrid can significantly improve the dielectric permittivity of SiC-CNT/PVDF composite with an extremely low CNT loading. CNTs on each SiC microplate are oriented along an axis and separated by a thin polymer matrix, giving rise to a network of microcapacitors. As a result, a large dielectric permittivity of more than 8700 and 2100 at 100 Hz could be obtained at a low CNT loading of 2.30 vol% and 1.48 vol% in the “multi-directions” and “single-direction” composites respectively.

Composites polymères

Nanotubes de carbone

Propriétés diélectriques

Polymer composites

Carbon nanotube

Dielectric properties

Ponte de ultra baixa frequência para medidas dielétricas: aplicações e eletretos / Ultra low frequency bridge for dielectric measurements in electrets

Jan Frans Willem Slaets

28 May 1976

Analisa-se no presente trabalho o problema das medidas de relaxação dielétrica a U.B.F. (Ultra Baixa Frequência). Propõe-se um modelo de ponte para tais medidas capaz de varrer o intervalo 10-3 Hz-10Hz, baseada na medida de fase conforme a discussão original de Van Turnhout e colaboradores. Analisa-se também os principais problemas experimentais com tal equipamento de U.B.F. e descreve-se a sua construção e funcionamento. Analisa-se também o modelo teórico de correlação entre medidas de U.B.F. e descarga de eletreto com correntes termo-estimulado. Em particular calculamos uma correção para a expressão integral dado por Van Turnhout e colaboradores que leva em conta a influência da energia de ativação na correlação entre as duas técnicas. Tal conversão é significante para valores da energia de ativação menor que 0,5eV e que ocorrem experimentalmente com frequência / In the present work we investigate the problem of U.L.F. (Ultra Low Frequency) dielectric relaxation. An experimental model is proposed for a bridge covering the range of 10-3Hz-10Hz, based on phase shift measurements originally proposed by Van Turhout and collaborators. We also analyze the main experimental problems with such U.L. F. measurements and describe its construction and performance. We have also investigated the theoretical correlation between U.L.F. dielectric relaxation and electret thermal stimulated currents. We calculate in particular, a correction for the integral expression given by Turnhout and collaborators that takes into account the value of the activation energy in the relation between the two techniques. The correction is important for values of the activation energy below 0,5eV, which occur frequently in dielectric relaxation processes

Eletretos

Medidas dielétricas

Ultra-baixa freqüência

Dielectric measurements

Electrets

Ultra-low frequency

Novo método para medida da permitividade complexa em ultra-baixas frequências / New method for measuring the complex permittivity at ultra-low frequencies

Jan Frans Willem Slaets

26 June 1979

No presente trabalho descreve-se: a determinação da permitividade dielétrica complexa através de medidas de fase; a aplicação de técnicas de correlação e análise em séries de Fourier, para a determinação da fase, amplitude, qualidade e deformação do sinal atrasado; os circuitos eletrônicos do medidor de fase e do oscilador de U.B.F. programável; a programação desenvolvida em FORTRAN IV e MACRO-ASSEMBLER para o computador PDP 11/45, utilizado para operar o medidor de fase e o oscilador de U.B.F. / In the present work we describe: the determination of the complex dielectric permittivity by phase shift measurements; the application of correlation and Fourier series analyses to determine the phase shift, amplitude, quality and deformation of the shifted signal; the designed electronic hardware of the phase meter and programmb1e ultra-low frequency oscillator; the developed software written in FORTRAN IV and MACRO- ASSEMBLER for PDP 11/45, to operate the phase meter

Constante dielétrica

Instrumentação eletrônica

Ultra-baixa frequencia

Dielectric constant

Electronic instrumentation

Ultra-low frequency

Defeitos puntiformes em cristais de NaCl: NaF: M++ / Point Defects in NaCl : NaF : M++ crystals

Dulcina Maria Pinatti Ferreira de Souza

29 January 1980

Neste trabalho estudamos defeitos pontuais em cristais de NaCl + NaF contendo diversos íons divalentes e em especial o íon Pb++. As técnicas usadas foram as de I.T.C. e absorção ótica. Identificamos três novos defeitos e novos agregados de Pb++. Um modelo microscópico para os defeitos observados foi proposto. Dois dos novos picos de I.T.C. são identificados como relaxação do mesmo defeito constituído do íon divalente e um íon F- em sua proximidade. Pela primeira vez observou-se a conversão da relaxação dielétrica de um íon divalente isolado para a de uma posição perturbada. Os íons F- funcionam como armadilhas eficientes para a difusão do íon Pb++. O efeito do raio iônico sobre a relaxação desses defeitos foi observado e discutido. Atribuiu-se tentativamente a um par de vacâncias ao pico de I.T.C. de mais baixa temperatura / This work report results on the study of point defects in NaCl + NaF single crystals doped with several divalent ions and with more details for Pb++ ions. I.T.C. and u.v. spectroscopy were the used techniques. Three new relaxation peaks were found as well as large aggregates of Pb++ and F- ions. A microscopic model for the observed defects is proposed. Two of the new I.T.C. peaks called B and C, are identified as dielectrics relaxation of one defect - its transverse and the longitudinal relaxation modes. This defect is made of one divalent ion one F anion as its close neighbor and one vacancy. For the first time it was observed the conversion of a Pb++ ion from a normal to a perturbed lattice site. The F anions are efficient traps for divalent ion diffusion. The effect of divalent ion radius on the dielectric relaxation of these perturbed defects was observed and discussed. The lower temperature peak is tentatively attributed to relaxation of a divacancy - a pair of positive and negative vacancy bound together

Cristal iônico

Defeitos puntiformes

Relaxação dielétrica

Dielectric relaxation

Ionic crystal

Point defects

Ordenamento e propriedades dielétricas em microondas dos sistemas (Ba1-xSrx)3CaNb2O9 e (Ba1-yLay)3Ca1+yNb2-yO9 / Structural ordering and microwave dielectric properties of (Ba1-xSrx)3CaNb2O9 and (Ba1-yLay)3Ca1+yNb2-yO9 systems

João Elias Figueiredo Soares Rodrigues

13 July 2017

Materiais dielétricos para operação em microondas constituem um ponto importante para usos em sistemas de comunicação móvel/via satélite, incluindo sistemas de monitoramento terrestres, internet/telefonia para celulares, internet das coisas, além do interesse militar para elaboração de radares. Avanços importantes nesse setor tecnológico só foram outorgados, graças ao emprego ostensivo de ressoadores dielétricos (RDs). Esses dispositivos constituem cerâmicas óxidas com baixa perda dielétrica em microondas, com demanda para sua miniaturização. O sistema deverá possuir alta constante dielétrica nesse intervalo e o dispositivo deve ser termicamente estável, ou seja, suas propriedades dielétricas não se alterarão com a temperatura. A busca por materiais de alto desempenho resultou na descoberta das perovskitas ordenadas 1:1 e 1:2, com estequiometria A2BBO6 e A3BB2O9, respectivamente. Tais sistemas ordenam o sítio B, da perovskita ABO3, gerando o empilhamento dos planos cristalinos com B e B, intercalados e na direção [1 1 1]c. Os resultados da literatura mostram que o ordenamento possui papel fundamental na obtenção de ressoadores de baixa perda dielétrica. Ademais, poucos estudos reportam as propriedades dos sistemas contendo os cátions Ca e Nb, no sítio B. Portanto, essa tese dedicou-se à investigação das propriedades dielétricas do sistema Ba3CaNb2O9 e, posteriormente, a modificação desse com a substituição dos cátions Ba2+ por Sr2+ e La3+. As amostras foram preparadas pelo método de reação do estado sólido e, posteriormente, caracterizadas pela difração de raios X, espalhamento Raman, espectroscopia de impedância e desempenho em microondas, além de técnicas complementares como análise térmica, densidade por imersão e microscopia eletrônica de varredura. Os resultados demonstraram a coexistência dos domínios 1:1 e 1:2 no sistema Ba3CaNb2O9, sendo possível manipulá-los mediante condições da sinterização. Microestruturalmente, esses domínios são regiões no cristalito com diferentes ordens catiônicas e, assim, com propriedades cristalográficas e vibracionais diferentes. Pela impedância, notou-se que o ressoador Ba3CaNb2O9 tende a conduzir mais quando possui uma tendência para o domínio 1:1. Tal resultado foi confirmado em microondas, onde a redução da perda dielétrica foi correlacionada à diminuição do domínio 1:1 na estrutura cristalina dos ressoadores. Na solução sólida com Sr2+, uma transição da fase trigonal D3d3 para monoclínica C2h3 foi detectada nos pós-calcinados, sendo oriunda das inclinações octaédricas do sistema de Glazer a0b-b-. As cerâmicas desse sistema foram sinterizadas a 1500 °C por 26 h, cujo resultado ilustrou uma tendência à ordem 1:1 para x ≥ 0,30. No sistema com La3+, observou-se, além da coexistência, os monodomínios 1:1 e 1:2. O sistema com monodomínios 1:1, BaLaCaNbO6 (y = 0,50), evidenciou uma distorção monoclínica intrínseca. Esta distorção foi associada às inclinações octaédricas do sistema de Glazer a0b-b-, reduzindo a simetria da fase cúbica Oh5 para monoclínica C2h3. Por fim, o desempenho como ressoador dielétrico dos sistemas BaLaCaNbO6 e Ba3CaNb2O9 foi avaliado. O primeiro sistema mostrou os seguintes valores: permissividade relativa εg ∼ 26, Qu × fR ∼ 10.506 GHz e coeficiente τf ∼ -55 ppm.K-1. O segundo sistema revelou os dados: permissividade εg ∼ 43, Qu × fR ∼ 15.752 GHz e o coeficiente τf ∼ 278 ppm.K-1. / Dielectric materials for microwave applications play an important role in mobile and satellite communication systems, including terrestrial monitoring, internet/mobile devices, internet of things, as well as the military uses as the radar developments. Advances in this technological field were only possible due to the ostensive use of dielectric resonators (DRs). These devices constitute oxide ceramics with a low dielectric loss in microwave frequency. The system must have high dielectric constant and such a device must be thermally stable. The search for highperformance materials granted the discovery of 1:1 and 1:2 ordered perovskites, with general formula A2BBO6 and A3BB2O9, respectively. These systems depict the B-site ordering of ABO3 perovskite, inducing the crystalline planes stacking in the [1 1 1]c direction. The literature results showed that the ordering plays an essential role in the low loss ceramics. Moreover, few studies reported the features of the systems containing the Ca and Nb cations at the B-site. Therefore, our work drives the dielectric properties of the Ba3CaNb2O9 system and, then, the modification induced by Ba2+ substitution by Sr2+ and La3+. The samples were prepared by the conventional solid-state reaction method and probed by X-ray diffraction, Raman scattering, impedance spectroscopy and microwave performance, as well as other techniques such as thermal analysis, density measurement, and electron microscopy. Our findings elucidated the coexistence of 1:1 and 1:2 domains in Ba3CaNb2O9 ceramics, being possible to manipulate them by sintering conditions. Such an ordered domain denotes regions in the crystallites with different cationic order and with different crystallographic and vibrational behavior. By the impedance spectroscopy, it was observed that Ba3CaNb2O9 ceramics tend to conduct more when they present a tendency towards the 1:1 domains. The earlier result was also confirmed in microwave frequency, in which the dielectric loss decreasing was correlated to the decrease of the 1:1 domain in the crystal structure. In the strontium solid solution, a transition from the D3d3 trigonal phase to the C2h3 monoclinic one was noted in powder samples, being derived from octahedral tilting (a0b-b- Glazer system). In the lanthanum system, besides the coexistence, the monodomains 1:1 and 1:2 were observed. Otherwise, the 1:1 monodomain system, BaLaCaNbO6 (y = 0.50), exhibited an intrinsic monoclinic distortion. This distortion was ascribed to the octahedral tilting (a0b-b- Glazer system), lowering the crystal symmetry from Oh5 cubic phase to the C2h3 monoclinic phase. The dielectric resonator performances of the BaLaCaNbO6 and Ba3CaNb2O9 systems were evaluated. The first system showed the following values: permittivity εg ∼ 26, Qu × fR ∼ 10.506 GHz and coefficient τf ∼ -55 ppm.K-1. The second system exhibited the data: permittivity εg ∼ 43, Qu × fR ∼ 15.752 GHz and coefficient τf ∼ 278 ppm.K-1.

Ordenamento estrutural

Perovskita complexa

Ressoador dielétrico

Complex perovskite

Dielectric resonator

Structural ordering

Influência de centros de captura na relaxação dielétrica de cristais de Ki:M++. / The influence of capture centers on the dielectric relaxation of Ki:M ++.

Sergio Carlos Zilio

16 August 1976

Encontrou-se que a relaxação dielétrica dos dipolos impureza-vacância em KI dopado com pequenas quantidades de KCl é extremamente diferente da relaxação dielétrica na matriz KI não contendo íons Cl&#8254.Os novos picos de relaxação, atribuídos à presença do Cl&#8254 na vizinhança imediata do íon divalente, tem um tempo de relaxação 103 vezes menor que o normal na temperatura ambiente.Foi proposto um modelo para o aprisionamento dos íons divalentes pelo Cl&#8254 e estudado a influência dos raios atômicos do divalente e do anion estranho neste processo de aprisionamento. / The dielectric relaxation due to I-V dipoles in KI doped with small amounts of KCl was found to be strongly different than in KI crystals not containing Cl&#8254.The new relaxation peak attributed to the presence of the Cl&#8254 in the close neighborhood of the divalent ion has a relax¬ation time 103 greater than the normal one.A model for the trapping of the divalent ions by the Cl&#8254 is proposed. The influence of atomic radius of the divalent and the impurity anion is discussed.

Corrente termo-estimulada

Defeitos

Halogenetos alcalinos

Relaxação dielétrica

Alkalihalides

Defects

Dielectric relaxation

Thermo-stimulated current