Desenvolvimento de processos de deposição de filmes filmes sobre substratos polimericos fotopolimerizdos / Development of process of deposition of thin films on photopolymerization polymeric substrats

AUTOR(ES)
DATA DE PUBLICAÇÃO

2007

RESUMO

A new era has begun all around the world. The quality of life and health depends more and more on the human capacity of resolving problems that are becoming longer and more complex day by day. As communication and globalization advance, time becomes scarcer and more precious. The semiconductor materials which are used to activate the logical functions, the high velocity memory used in processing information and the storage ?hardware? are the most difficult materials produced in this area. The ability to change is enormous, due to the fact that what was considered the most modern equipment has become obsolete in the blink of an eye. Consequently, the advances in the areas of technological information are related to the advances in those in semiconductors and as result in materials. As the use of the ?chip? increases, the alternatives also become varied, with the objective of improving the chip?s functions, this is because the demand for the product is getting stronger, increasing, when referring to the population, the search for these products. This study has achieved a covering which can be perceived as a beginning to New Technology, in order to create a ?microchip? with polymeric materials. It?s the start of a new era when dealing with the area of electro-electronic materials and models. For the National Industry and for Manaus? Industry Pole, it might be viewed as cheaper and more accessible technology for all. An adaptation of a reactor has become full filled that produces electronic components for a deposition on a polymer substratum (ophtalmic lenses) for the attainment of a treatment of alternative anti-reflexive. This methodology is used in the industry of electronic components, more known as "chip". In this work they had been experiment design facts to optimize the excellent conditions for the covering for spin coating. Through the deposition of silicon oxide films on ophtalmic lenses one produced the silicon oxide films that had been deposited through a reactor of Microwave Electron Cyclotron Resonance, with aid of a magnetic field, a plasma constituted by a mixture of argon, oxygen and silane.This method of deposition is known as "ECR". The structure of deposited the silicon oxide films was studied through transmittance in the region of the visible light. The morphology of the surfaces re-covered with the films was analyzed by Optic Microscopy and also through Scanning Electron Microscopy Analysis (MEV). The results of transmittance for the films show that the measure where the layer is deposited form structures that improve the protection offered for the covering. The MEV micrographs had shown, also, that the surfaces best protection for silicon oxide are the gotten ones through acrylic resin, as they prove the anti-risk tests. The analysis of angle of contact of the film showed that the covering does not serve as hydrophobic layer. The measurements of parameter S which were found, were based on characteristics of the resulted prototypes and the answer limitations regarding the frequency of the equipment used for these readings. Moreover, the overall results can?t be better detailed due to the fact that the material wasn?t deposited with this objective. The methodology is viable, and based on the same principles it can develop diverse utilities to this innovate technique

ASSUNTO(S)

thin films polimerização alternative covering microondas polymerization materiais oticos lentes plasma (gases ionizados) filmes finos lenses plasma (ionized gases) microwaves optical materials organic chip

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