Master's Dissertation
DOI
https://doi.org/10.11606/D.88.1998.tde-09122013-163710
Document
Author
Full name
Liana Bueno Oliveira Amorim de Moraes
Institute/School/College
Knowledge Area
Date of Defense
Published
São Carlos, 1998
Supervisor
Committee
Hernandes, Antonio Carlos (President)
Mastelaro, Valmor Roberto
Seckler, Marcelo Martins
Mastelaro, Valmor Roberto
Seckler, Marcelo Martins
Title in Portuguese
Crescimento de cristais orgânicos e a avaliação de suas qualidades para aplicações em óptica não linear
Keywords in Portuguese
Crescimento de cristais
Cristais orgânicos
Geração de segundo harmônico
Cristais orgânicos
Geração de segundo harmônico
Abstract in Portuguese
Apresentamos os resultados de preparação e caracterização de cristais orgânicos (L-arginina fosfatada monohidratada - LAP - e L-lisina monohidroclorada dihidratada - L-Lys.HCl) que possuem propriedades ópticas lineares e não lineares desejáveis para aplicações tecnológicas, incluindo telecomunicações, computação óptica, armazenamento óptico de dados, processamento óptico da imagem, conversão de freqüência, entre outras. Desenvolvemos uma metodologia, simples e barata, para a eliminação de fungos e micróbios que surgem nas soluções destes compostos devido às características dos aminoácidos L-arginina e L-lisina. A adição do fungicida azida de sódio possibilitou-nos manter soluções destes compostos livres de quaisquer microorganismos na câmara de crescimento por um período de seis meses. Usando-se as técnicas de evaporação controlada do solvente a abaixamento da temperatura grandes cristais de LAP e L-Lys.HCl foram obtidos com qualidade óptica adequada para a confecção de dispositivos optoeletrônicos. Cristais de até 6 cm³ de L-Lys.HCl foram pela primeira vez preparados e caracterizados opticamente. A caracterização estrutural permitiu-nos solucionar a divergência existente na indexação do difratograma de pó dos cristais de LAP e indexar os picos de difração de raios-X da L-lisina monohidroclorada dihidratada.
Title in English
Crystal growth and optical characterization of organic crystals with nonlinear optical properties
Keywords in English
Crystal growth
Organic crystal
Second harmonic generation
Organic crystal
Second harmonic generation
Abstract in English
Growth and characterization of organic crystal (L-arginine phosphate monohydrate - LAP - and L-lysine monohydrochloride dihydrate L-Lys. HCl) with desirable linear and nonlinear optical properties for technological application including telecommunications, optical computing, optical data storage, optical image processing, harmonic frequency generation, and others are presented. We developed a simple and cheap method to eliminate fungi and microbes that arises in solution due to characteristics of L-arginine and L-lysine aminoacids. The addition of sodium azide fungicide maintained the solutions of these compounds free of microorganisms in the growth chamber for six months. Using a accurately controlled solvent evaporation technique and slow cooling technique large crystals of LAP and L-Lys.HCI were obtained with optical quality appropriate to the development of optoelectronic devices. L-Lys.HCl crystals up to 6 cm³ were growth and optically characterized for the first time. The divergence in the powder diffraction indexation of LAP crystals was eliminated by structural characterization and the X-ray diffraction peaks of the L-lysine monohydrochloride diliydrate crystals were indexed.
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Publishing Date
2013-12-17
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