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Magnetically Deflectable Mems Actuators For Optical Sensing ApplicationsMontgomery, Matthew 01 January 2009 (has links)
In this work, new small deflection magnetic actuators have been proposed, designed, and tested for applications in Surface Enhanced Raman Scattering optical sensors. Despite the fact that SERS sensors have been shown to increase Raman over ten orders of magnitude for molecular detection, several technological challenges have prevented the design of practical sensors, such as making SERS sensors that can efficiently detect a wide variety of molecules. Since the optimum signal-to-noise in SERS occurs at different excitation wavelengths for different molecules, individual metal nanostructures need to be designed and fabricated for each independent chemical species. One possible solution to this problem is to tune the plasmon resonance frequency of the metal nanoparticles to eliminate the need for individually optimized particles. In order to achieve a tunable local dielectric environment, and thus allow for control over the resonance frequency of metal nanoparticles, a new SERS sensor geometry is proposed and a large deflection magnetic actuator is fabricated and tested as a starting point for the design of a small deflection magnetic actuator. Using the newly developed SERS geometry and the optimized fabrication processing techniques, two small deflection magnetic actuator beam structures were designed, fabricated, and tested. These devices utilizes an off-chip electromagnet source able to produce a magnetic force of approximately 14 μN on the on-chip nickel film generating deflections up to 139 nm for the straight beam device and 164 nm for the curved beam device. iii In the process of characterizing the newly developed small deflection magnetic actuator, an integrated magnetic actuator with electrostatic restoration geometry was conceived. This device was designed to meet the specifications of the small deflection magnetic actuator as well as eliminate the need of an off-chip magnetic source and fully integrate the process atop the metal nanoparticle arrays. Using adhesive iron based magnetic strips as the magnetic drive source, circular NiFe beams with 1, 2, 3, and 4 mm diameters were designed and simulated. Calculations predicted maximum achievable actuation of up to 2.5 μm. Processing steps were laid out for a set of integrated devices as a possible predecessor to the newly designed small deflection magnetic actuator.
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Determinação de Cu e Fe em Biodiesel por Espectrometria de Absorção Atômica com Atomização Eletrotérmica e Estudo do Efeito Catalítico destes Metais sobre a Estabilidade Oxidativa do Biodiesel / Determination of Cu and Fe in Biodiesel by Absorption Spectrometry Electrothermal atomic and Study of the Effect of Catalytic Metals on the Oxidative Stability of BiodieselGhisi, Mirela 16 May 2011 (has links)
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Previous issue date: 2011-05-16 / Conselho Nacional de Desenvolvimento Científico e Tecnológico / The metals content in biodiesel is directly related with the raw material used and also with the
utilized biodiesel production method. In this work, an evaluation of the main metals present in
biodiesel samples from different sources was done. The qualitative analysis of the metal
content was assessed using the Inductively Coupled Plasma Mass Spectrometry technique
after sample digestion in microwave oven. The main metals identified in the analyzed
biodiesel samples were Al, Cr, Cu, Fe, Mg, Mn, Ni, Pb, Sr and Zn. Metals like Ag, As, Ba,
Cd, Co, Tl and V have not significant presence in the samples. Among these, Cu and Fe were
selected due to their relevance and importance in oxidative process of biodiesel, to the
development of an analytical methodology to be used in the determination by Electrothermal
Atomic Absorption Spectrometry, and also evaluate the effect of these metals over the
oxidative stability of the soy biodiesel. The samples were prepared with
tetramethylammonium hydroxide (TMAH), and the pyrolysis and atomization temperatures
were optimized pyrolysis and atomization curves. The high pyrolysis temperature adopted,
1000 oC, certainly minimized potential interferences, but calibration had to be carried out with
aqueous standard solutions in the presence of the TMAH. The detection limits in the sample
(3s, n=10), were quite low 15 ng g-1 and 24 ng g-1 for Cu and Fe, respectively. Seven biodiesel
samples, produced from different raw materials, including vegetable seed, waste frying oil
and animal fat were analyzed. Accuracy was validated by applying the recovery test
(recoveries from 105% to 120%) and through comparison with the obtained results by High
Resolution Continuum Source Electrothermal Atomic Absorption Spectrometry. The
precision, expressed by the relative standard deviation, was better than 3% for Cu and than
7% for Fe. Copper could be quantified in two and Fe in three of the seven samples. The
biodiesel sample from fodder turnip was especially rich in the analytes in comparison to the
other samples. The influence of metals Cu and Fe on soy biodiesel oxidative stability was
evaluated by Rancimat method through induction period, according with the Standard EN
14112. The metals Cu2+ and Fe3+ were added to the biodiesel samples in the form of theirs
salts, and different storage times of the samples were evaluated. Due to the catalytic
behaviour of these metals, the oxidative stability of the samples was affected, even under low
metal concentrations. Compared to Cu2+, the effect over the biodiesel stability was higher
when Fe3+ was added. / A presença de metais no biodiesel está diretamente relacionada com a matéria-prima utilizada
e também com o processo utilizado para a obtenção do biodiesel. Neste trabalho realizou-se
uma avaliação dos principais metais presentes em amostras de biodiesel provenientes de
diferentes fontes. A análise semi-quantitativa nas amostras de biodiesel foi realizada
utilizando a técnica de Espectrometria de Massa com Plasma Indutivamente Acoplado após a
digestão das amostras em micro-ondas. Os principais metais identificados nas amostras de
biodiesel analisadas são Al, Cr, Cu, Fe, Mg, Mn, Ni, Pb, Sr e Zn. Metais como Ag, As, Ba,
Cd, Co, Tl e V não estão presentes em concentrações significativas nessas amostras. Em
função de sua relevância e importância em processos oxidativos do biodiesel, selecionou-se
Cu e Fe para o desenvolvimento de uma metodologia analítica para a determinação destes por
Espectrometria de Absorção Atômica com Atomização Eletrotérmica e também a avaliação
do efeito destes metais sobre a estabilidade oxidativa do biodiesel de soja. As amostras foram
preparadas com hidróxido de tetrametilamônio (TMAH), e as temperaturas de pirólise e
atomização foram otimizadas através de curvas de pirólise e atomização. A alta temperatura
de pirólise adotada, 1000 oC, certamente ajudou a minimizar possíveis interferências; porém,
a calibração teve de ser realizada com padrões aquosos na presença de TMAH. Os limites de
detecção (3s, n = 10), na amostra, foram baixos, 15 ng g-1 e 24 ng g-1 para Cu e Fe,
respectivamente. Sete amostras de biodiesel, produzidas de diferentes matérias-primas,
incluindo óleos vegetais, óleo de fritura e gordura animal foram analisadas. A exatidão foi
avaliada através do teste de recuperação (recuperações de 105% a 120%) e através da
comparação com os resultados obtidos por Espectrometria de Absorção Atômica de Alta
Resolução com Fonte Contínua e Atomização Eletrotérmica. A precisão, expressa pelo desvio
padrão relativo foi melhor que 3% para Cu e que 7% para Fe. Cobre pôde ser quantificado em
duas e Fe em três das sete amostras. A amostra de biodiesel proveniente do nabo forrageiro
era especialmente rica nos analitos comparada às outras amostras. A influência dos metais Cu
e Fe sobre a estabilidade oxidativa do biodiesel de soja foi avaliada pelo método Rancimat
através do período de indução, de acordo com a Norma EN 14112. Os metais Cu2+ e Fe3+
foram adicionados nas amostras de biodiesel na forma de seus sais, e foram avaliados
diferentes tempos de armazenamento das amostras. Devido ao efeito catalítico destes metais,
a estabilidade oxidativa das amostras analisadas foi reduzida mesmo na presença de baixas
concentrações dos metais. O efeito do Fe3+ sobre a estabilidade do biodiesel foi
significativamente maior quando comparado ao Cu2+.
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