962 resultados para Isoterma de adsorção
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Pós-graduação em Engenharia e Ciência de Alimentos - IBILCE
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Pós-graduação em Agronomia (Ciência do Solo) - FCAV
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The objective of this work was to evaluate the possibility of mapping adsorbed phosphorus through soil color and magnetic susceptibility. The experiment was done in a 380-ha sugarcane area, which included four types of Oxisols, with different texture and natural fertility. Two hundred and forty-one soil samples were collected at 0.00-0.25-m depth. The soil redness index was calculated from sample values of hue, value, and chroma, obtained with diffuse reflectance spectroscopy. Regression models were adjusted between adsorbed phosphorus and soil magnetic susceptibility or redness index. Data spatial dependence was evaluated with geostatistics. Magnetic susceptibility is significantly correlated to adsorbed phosphorus, which allows it to be used as a component in pedotransfer functions for indirect quantification of soil adsorbed phosphorus. The redness index and the magnetic susceptibility show spatial dependency with adsorbed phosphorus. Soil magnetic susceptibility and redness index, evaluated with diffuse reflectance spectroscopy, can aid in the mapping and identification of areas with different phosphorus adsorption potential.
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Conselho Nacional de Desenvolvimento Científico e Tecnológico (CNPq)
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The sol-gel process is a method for obtaining vitreous or vitro-ceramic materials which, are prepared a sol and by drying the liquid phase. This technique has been used extensively for the preparation of glassy gels, films, fibers and particles from the hydrolysis and polycondensation reactions of metal alkoxides. The usual methods for drying are: evaporation drying (xerogels), freeze drying (criogéis) and via supercritical CO2 extraction (aerogels). In the present work, we studied the preparation of silica gels by the sol-gel process from the hydrolysis of alkoxides tetraethylorthosilicate (TEOS) and 3-glycidoxypropyltrimethoxysilane (GPTS). The hydrolysis was promoted from GPTS and TEOS in proportion (4: 1) under acidic conditions. The hydrolysis reaction was promoted inside a Becker at room temperature. After hydrolyses the prepared sol had pH 2, and kept under mechanical agitation for a period of 1 hour. In order to accelerate the polycondensation reaction, the pH was corrected to a value near 5 by slowly adding NH4OH. Then the sols were leaked in sealed polycarbonate containers and maintained for 20 days at 40°C for gelation. Silica aerogels were prepared via supercritical CO2 extraction of the wet gel at temperature and pressure higher than 31°C and 74 atm, in an autoclave specially developed for the process. The structural characteristics were studied in the dry gel (aerogel). Aerogels were then characterized by nitrogen adsorption and small angle light scattering. The nitrogen adsorption data were analyzed for the determination of the BET specific surface (SBET), the total pore volume Vp, the pore mean size (lP=4Vp/SBET), the particle mean size (lS) and the pore size distribution (PSD). And the data from small angle light scattering were analyzed to determine the correlation function (γ'), the area per unit volume (S/V), average pore size (l ) and the average particle size...
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Nanotubes have been subject of studies with regard to their ability to promote differentiation of several cells lines. Nanotubes have been used to increase the roughness of the implant surfaces and to improve bone tissue integration on dental implant. In this study TiO2 nanotube layer prepared by anodic oxidation was evaluated. Nanotube formation was carried out using Glycerol-H2O DI(50-50 v/v)+NH4F(0,5 a 1,5% and 10-30V) for 1-3 hours at 37ºC. After nanostructure formation the topography of surface was observed using field-emission-scanning-microscope (FE-SEM). Contact angle was evaluated on the anodized and non-anodized surfaces using a water contact angle goniometer in sessile drop mode with 5 μL drops. In the case of nanotube formation and no treatment surface were presented 39,1° and 75,9°, respectively. The contact angle describing the wettability of the surface is enhanced, more hydrophilic, on the nanotube surfaces, which can be advantageous for enhancing protein adsorption and cell adhesion.
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Coordenação de Aperfeiçoamento de Pessoal de Nível Superior (CAPES)
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As lipases, também chamadas de glicerol éster hidrolases, são enzimas que fazem parte do grupo das serina hidrolases, tendo como substrato, triglicerídeos. O modo de ação das lipases assemelha-se ao das esterases, realizando a hidrólise das ligações ésteres-carboxílicas de acilgliceróis, formando ácidos graxos e glicerol. Processos de bioconversão enzimática têm sido bastante utilizados na produção, transformação e valorização de matérias-primas. Avanços na tecnologia enzimática, como a imobilização de enzimas, possibilitaram a modificação das propriedades cinéticas e da estabilidade destas moléculas contribuindo com o aumento no potencial de aplicações das mesmas. O presente trabalho teve por objetivo estudar diferentes métodos de imobilização de lipases em suportes de sílica, bem como os efeitos deste procedimento, visando melhorar a funcionalidade das enzimas e o maior rendimento econômico nos processos industriais. Os métodos de imobilização escolhidos para os estudos foram: adsorção física, ligação covalente e encapsulação. O processo de imobilização de lipase em Celite (adsorção física) foi otimizado levando em conta o pH, porcentagem da concentração enzima:suporte e temperatura ótimos de atividade enzimática. Também se utilizou Celite como suporte para a imobilização de lipase por ligação covalente, onde se obteve os melhores resultados com atividade enzimática 20% a 40 ºC e eficiência de imobilização de 50%. A celite foi ativada com 3-aminopropiltrietoxisilano e glutaraldeído. Por último, foi avaliada a possibilidade de encapsulação da lipase utilizando o precursor tetraetilortossilicato (TEOS). Os resultados obtidos nesta última metodologia não se mostraram satisfatórios. Logo, com os dados obtidos, podemos dizer que uma boa manutenção da atividade catalítica depende do tipo de retenção (química ou física) e da força de interação entre a enzima e o suporte utilizado, força esta que pode, em alguns casos, causar distorções estruturais na proteína, levando a manutenção ou diminuição da atividade catalítica.
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Pós-graduação em Ciência Florestal - FCA
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The activation of aluminum surface has the most various purposes as for example the search for the surface activation mechanism and the corrosion products by mercury ions. The objective of this work is to study the reactivity of the surface of aluminum metal when activated by mercury ions (Hg2+), with the consequent formation of an Al-Hg amalgam. Results demonstrate that the kinetics of the reaction, by measuring the mass change with time of the corrosion product formed between Al and Hg, and analysis by infrared spectroscopy (IR) that the product of the reaction between the amalgam, located on the surface, and the atmospheric oxygen is Al2O3 (aluminum hydroxide). The results also indicate that the kinetics of the reaction between the amalgam (Hg-Al) and atmospheric oxygen is of first order and reach a region where there is no more formation of product
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Fundação de Amparo à Pesquisa do Estado de São Paulo (FAPESP)
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Coordenação de Aperfeiçoamento de Pessoal de Nível Superior (CAPES)
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Coordenação de Aperfeiçoamento de Pessoal de Nível Superior (CAPES)
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Coordenação de Aperfeiçoamento de Pessoal de Nível Superior (CAPES)
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Coordenação de Aperfeiçoamento de Pessoal de Nível Superior (CAPES)
