Global ETD Search

31	Diamond Microfabrication for Applications in Optics and Chemical Sensing Forsberg, Pontus January 2013 (has links) Diamond is a material with many exceptional properties. In this thesis methods for fabrication of microstructures as well as several applications of such structures in optics, microfluidics and electrochemistry are presented. A method for etching deep and highly precise gratings is described. This method was used to fabricate circularly symmetric half wave plates for use in vector vortex coronagraphs. Such coronagraphs are a very promising approach to the direct imaging of extrasolar planets. By varying the lateral etch rate of the aluminum mask during diamond etching in an inductively coupled plasma, the sidewall angle of the etched structures could be controlled. This method was used to make smooth sloped sides on a waveguide for coupling light into it. Antireflective structures that drastically reduced the surface reflection in a wavelength band between 10 and 50 µm were also fabricated. An array of boron doped diamond microelectrodes for electrochemical measurements in a microchannel was fabricated and tested, showing very good stability and reusability. Several hundred hours of use did not adversely affect their performance and no damage to them could be detected by atomic force microscopy or scanning electron microscopy. Superhydrophobic surfaces in diamond were demonstrated, using both hydrogen and fluorine termination. Hydrogen termination on a flat surface gives contact angles below 90°. To achieve a superhydrophobic surface with this low intrinsic hydrophobicity, structures looking like microscopic nail heads were fabricated. The effect of water pressure on immersed superhydrophobic surfaces was also studied and it was found that the collapse of the superhydrophobic state due to pressure was sometimes reversible as the pressure was lowered. Finally, a method was tested for functionalizing diamond surfaces using block copolymers of polyethylene oxide and polypropylene oxide to both passivate the surface and to attach synthetic binder molecules. This method was found to give very high signal to noise ratios when detecting C-reactive protein. diamond microfabrication microoptics coronagraph waveguide microelectrodes superhydrophobic
32	Temporal influences of seasonal hypoxia on sediment biogeochemistry in coastal sediments Sell, Karen S. 15 November 2004 (has links) Bottom water hypoxia and its influence on the environment have been topics of increasing concern for many coastal regions. This research addresses both spatial and temporal variability in sediment biogeochemistry at the southeastern region of Corpus Christi Bay, TX, where seasonal (summer) hypoxia occurs. Traditional techniques for determination of a variety of dissolved and solid components, benthic oxygen demand, and sulfate reduction rates were augmented by measurements using solid state microelectrodes to simultaneously determine concentrations of dissolved O2, Mn2+, Fe2+, and [sigma]H2S in multiple small - interval (1 mm) depth profiles of sediment microcosms. Oxygen concentrations in the overlying water were manipulated in the sediment microcosms and electrode depth profile measurements were made over ~ 500 hours of experimentation. Laboratory and field microelectrode results were in good agreement for both norm - oxic and anoxic time periods. Results indicated that iron (Fe2+) and sulfide ([sigma]H2S) were the redox reactive species in these sediments. During hypoxic conditions an upward migration of dissolved Fe2+and [sigma]H2S through the sediment column and, at times, into the overlying water was observed as the dissolved oxygen concentrations decreased. A corresponding decline in the vertical extent of these redox species occurred when the overlying water was re-oxidized. When both dissolved iron and sulfide coexisted, FeS minerals were formed in the sediment, preventing sulfide diffusion into the overlying water. However, after a long duration of hypoxia (> 200 hours) this buffering capacity was exceeded and both iron and sulfide penetrated into the overlying waters. Results indicated that iron may have a greater influence on hypoxia than sulfide because its concentration in the overlying waters during induced hypoxia was an order of magnitude greater than those of sulfide. Moreover, in the southeastern region of the Bay, where mixing was minimal and the water column was shallow, the sediments alone may have caused the onset of the hypoxic event in a relatively short time period (< 5.5 days). These results demonstrated that in shallow marine environments where seasonal hypoxia occurs, such as Corpus Christi Bay, the associated major changes that take place in the sediment biogeochemistry must be included in benthic - pelagic models for overlying water hypoxia. hypoxia biogeochemistry sulfate reduction microelectrodes diagenesis
33	Quantitative assessment of localized growth rates and gene expression patterns in Pseudomonas aeruginosa biofilms Pérez-Osorio, Ailyn Cecilia. January 2009 (has links) (PDF) Thesis (PhD)--Montana State University--Bozeman, 2009. / Typescript. Chairperson, Graduate Committee: Michael Franklin. Includes bibliographical references.
34	Development and characterisation of microelectrodes for extreme environments Brady, Charlotte Louise January 2013 (has links) Microelectrodes have been found to be a valuable tool in a variety of analytical studies. Their advantages over macro-sized electrodes are well known, including their enhanced mass transport properties (due to their ubiquitous hemispherical diffusion) which lead to steady state responses without external convection. They also exhibit high signal-to-noise ratios (greater sensitivities), furthering their analytical application. Microelectrode arrays are analytical devices with multiple electrodes. There are suitable for practical sensing with all the benefits of microelectrodes but with greater currents, leading to greater ease of measurement. To produce a reliable electroanalytical device the microelectrode response must be reproducible, a fundamental property based on the quality control of their production. Square microelectrode and array fabrication techniques have been developed for this purpose. This research discusses the fabrication and development of closely spaced arrays of square microelectrodes. Simulated and measured responses are compared and used to characterize electrode and array responses by cyclic voltammetry, electrical impedance spectroscopy and current-time transients. Measurements on variably spaced arrays allow insight into overlap of hemispherical diffusion from individual electrodes and the subsequent effect including peak current output on the array device. By studying these devices key insights into the mass transport properties of single square microelectrodes and microelectrode arrays were gained. This study also prepares and develops microelectrodes from materials appropriate for use in the extreme environments of molten salts and concentrated nitric acid solutions. These robust electrodes were developed for use in hydro- and pyro-chemical techniques for nuclear fuel reprocessing. These results demonstrate the practical uses for microelectrode systems across a wide range of chemical systems and in extreme conditions. 541
35	Frequency response of electrochemical probes in turbulent flow at high Schmidt numbers / Bate, Stephen O. January 1900 (has links) Thesis (Ph.D.)--Tufts University, 1999. / Adviser: Behrouz Abedian. Submitted to the Dept. of Mechanical Engineering. Includes bibliographical references (leaves 105-110). Access restricted to members of the Tufts University community. Also available via the World Wide Web;
36	Optimization of cell culture procedures for growing neural networks on microelectrode arrays Santa Maria, Cara L. Gross, Guenter W., January 2007 (has links) Thesis (M.S.)--University of North Texas, Dec., 2007. / Title from title page display. Includes bibliographical references.
37	Microfabricated electrode arrays suitable for stimulation and recording in cardiac electrophysiological studies Sivaswamy, Senthil, Roppel, Thaddeus A., January 2008 (has links) (PDF) Thesis (M.S.)--Auburn University, 2008. / Abstract. Vita. Includes bibliographical references (p. 38-39).
38	3D System-On-Package (SoP) Signal Generator to Control MEMS Movable Microelectrode Arrays January 2012 (has links) abstract: Microelectrodes have been used as the neural interface to record brain's neural activities. Most of these electrodes are fixed positioned. Neural signal normally degrades over time due to the body immune response and brain micromotion that move the neurons away from the microelectrode. MEMS technology under SUMMiT VTM processes has developed miniaturized version of moveable microelectrodes that have the ability to recover the neural signal degradation by searching new cluster of neurons. To move the MEMS microelectrode a combination of four voltage waveforms must be applied to four thermally actuated microactuators. Previous design has used OmneticTM interconnect to transfer the waveforms from the external signal generators to the MEMS device. Unfortunately, the mechanism to attach and detach the OmneticTM interconnect introduce mechanical stress into the brain tissue that often caused raptures in the blood vessel. The goal of this project is to create an integrated System-On-Package Signal Generator that can be implanted on the brain of a rodent. A wireless system and a microcontroller are integrated together with the signal generators. The integrated system can be used to generate a series of voltage waveforms that can be customized to drive an array of MEMS movable microelectrodes when a triggered signal is received wirelessly. 3D stacking technique has been used to develop this Integrated System. 3D stacks lead to several favorable factors, such as (a) reduction in the power consumption of the system, (b) reduction in the overall form-factor of the package, and (c) significant reduction the weight of the package. There are a few challenges that must be overcome in this project, such as a commercially available microcontroller normally have an output voltage of 3.3 V to 5.5 V; however, a voltage of 7 - 8V is required to move the MEMS movable microelectrodes. To acquire higher density neural recording, more number of microelectrodes are needed. In this project, SoP Signal Generator is design to drive independently 3 moveable microelectrodes. Therefore, 12 voltage waveform are required. . However, the use of 12 signal generators is not a workable option since the system will be significantly large. This brings us to the other challenge, the limiting size of the rodent brain. Due to this factor, the SoP Signal Generator has to be deisgned to be able to fit without causing much pressure to the rodent's brain. For the first challenge, which is the limited output voltage of 3.3V on the microcontroller, the RC555 timers are used as an amplifier in addition to generating the signals. Demultiplexers have been for the next challenge, which is the need of 24 waveforms to drive 3 electrodes. For each waveform, 1 demultiplexer is used, making a total of 4 demultiplexers used in the entire system, which is a significant improvement from using 12 signal generators. The last challenge can be approached using 3D system stacking technique as mentioned above. The research aims of this project can be described as follows: (1) the testing and realization of the system part, and the designing of the system in a PCB level, (2) implementing and testing the SoP Signal Generator with the MEMS movable microelectrodes, The final outcome of this project can be used not only for neural applications, but also for more general applications that requires customized signal generations and wireless data transmission. / Dissertation/Thesis / M.S. Electrical Engineering 2012 Electrical engineering 3D SoP MEMS microelectrodes
39	Avaliação da corrosividade do etanol combustível utilizando arranjo de microeletrodos / Corrosion evaluation in ethanol fuel using microelectrodes array Assis, Camila Molena de 03 February 2012 (has links) Orientador: Rodnei Bertazzoli / Dissertação (mestrado) - Universidade Estadual de Campinas, Faculdade de Engenharia Mecânica / Made available in DSpace on 2018-08-19T20:26:59Z (GMT). No. of bitstreams: 1 Assis_CamilaMolenade_M.pdf: 5677748 bytes, checksum: 86d7040f9e8479ed7064ba9503bfbe62 (MD5) Previous issue date: 2012 / Resumo: Neste trabalho foi estudada a corrosão do metal cobre em meio alcoólico utilizando um arranjo de microeletrodos construídos por fotolitografia. Foi avaliada a influência da área do arranjo de microeletrodos na queda ôhmica e no comportamento da resistência do meio eletrolítico. Os resultados obtidos foram plotados, analisados e comparados com metodologias teóricas obtendo uma boa concordância. Conclui-se que a resistência do meio aumenta, a medida que diminui-se o diâmetro do microeletrodo quando considerado um eletrodo unitário, no entanto, a resistência diminui com o diâmetro do microeletrodo quando considerado num arranjo. Em relação à queda ôhmica, esta diminui com a diminuição do diâmetro e através da compensação da queda ôhmica observa-se que as compensações tiveram menor efeito nos microeletrodos de menor área / Abstract: This work presents an investigation on the corrosion of cooper metal, using a microelectrode array building using lithography technique. The influence of microelectrode array area was investigated on the ohmic drop and resistance of ethanol. The results were then compared with existing theoretical methodologies and good agreements were found. It was concluded that resistance of ethanol increases with decreases single microelectrodes diameter and decreases with decreases array microelectrodes diameter. The ohmic drop decreases with diameter decreases and the ohmic drop compensation had the smallest effect on microelectrodes with smaller area / Mestrado / Materiais e Processos de Fabricação / Mestre em Engenharia Mecânica Corrosão Microeletrodos Etanol Corrosion Microelectrodes Ethanol fuel
40	Investigations of environmental degradation of materials by measurement of electrolyte parameters using microsensors and microelectrodes Fink, Klaus Michael January 1995 (has links) No description available. environmental degradation measurement electrolyte parameters microsensors microelectrodes

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