Global ETD Search

1	Study on rolling texture evolution of electrodeposited NiCo alloys Chen, Yu-Shen 31 August 2010 (has links) "none" NiCo rolling texture electrodeposited
2	Synthesis and Characterization of Electrodeposited CuInSe2 Thin Film Yeh, Fei-tao 27 June 2001 (has links) The dominant research subjects are focused on the growth of high quality stoichiometric of CuInSe2 epitaxial films by chemical electrodeposited. For chemical electrodeposited growth, it is possible to obtain the high economical films and to get easier and quicker of the composition and properties by controlling the growth parameters carefully. Under the conditions of fixed copper ion¡]Cu2+¡^concentration and excess indium ion¡]In3+¡^concentration, we can change selenium¡]Se4+¡^ concentration to get films. We hope it could be used in the manufacture of solar cell and get high conversion efficiency. CuInSe2 Electrodeposited Solar Cell
3	Nanomechanical sensors: analyzing effects of laser-nanowire interaction and electrodeposited clamps on resonance spectra Weng, Fan 02 June 2016 (has links) This thesis presents work to help enable the transition of sensitive nanoscale instruments from research laboratory demonstration to societal use. It focuses on nanomechanical resonators made by field-directed assembly, with contributions to understanding effects of materials, clamp geometries and laser measurement of motion, towards their use as commercial scientific instruments. Nanomechanical resonators in their simplest form are cantilevered or doubly- clamped nanowires or nanotubes made to vibrate near one of their resonant frequencies. Their small mass and high frequency enable extraordinary mass sensitivity, as shown in published laboratory-scale demonstrations of their use for detection of a few molecules of prostate cancer biomarker and of their response to mass equal to that of a single proton. However such sensitive devices have been prohibitively expensive for societal use, since the fabrication process cost scales with number of devices and the chip area covered, when they are made using standard electron beam lithography. Our laboratory has published new results for the method of field-directed assembly, in which the nanofabrication process cost is independent of the number of devices. While drastically lowering the cost, this method also broadens the range of device materials and properties that can be used in instrument applications for sensitive mass and force detection. Unanswered questions affecting the performance of devices made by this method are studied in this thesis. Clamping variability can cause uncertainties in the device resonant frequency (effective stiffness), raising manufacturing metrology costs to track reduced homogeneity in performance. Using a numerical model, we quantify how compliant clamp material and insufficient clamp depth reduce the effective stiffness and resonance frequency. Obliquely clamped nanowires and defects at the clamp-nanowire interface break the symmetry and split the resonance frequency into fast and slow modes. The difference of resonance frequency between the fast and slow modes corresponds to the degree of asymmetry and must be controlled in fabrication to keep device error bounded. Optical transduction has been used for measuring the nanoresonator frequency spectrum; however, the influence of the laser in the measurement process is only recently receiving attention and is not well understood. We found that the measured spectrum is significantly influenced by laser-nanowire interaction. Variation of input laser power could result in resonance peak shifts in the kHz range for a resonance frequency in the MHz range, which could reduce device mass resolution by a factor of 100 or greater. As the laser power is increased, the resonance frequency decreases. The heating effect of the laser on temperature-dependent Young’s modulus could explain this phenomenon. To our surprise, we also found that the amplitude and frequency of the resonance peak signal vary significantly with the angle made by the plane of laser polarization with the nanowire axis. Our measurements established that the maximum signal amplitude is seen when the plane of the linearly polarized laser is parallel to SiNW or perpendicular to RhNW. Maximum resonance frequency was found when laser is polarized perpendicular to SiNW or parallel to RhNW. / Graduate / 0537 / 0548 / 0752 nanowire resonator laser-nanowire interaction electrodeposited clamp optical transduction
4	Nanoparticle enhanced eutectic reaction during diffusion brazing of aluminium to magnesium Akhtar, T.S., Cooke, Kavian O., Khan, Tahir I., Shar, M.S. 14 August 2019 (has links) Yes / Diffusion brazing has gained much popularity as a technique capable of joining dissimilar lightweight metal alloys and has the potential for a wide range of applications in aerospace and transportation industries, where microstructural changes that will determine the mechanical and chemical properties of the final joint must be controlled. This study explores the effect of Al2O3 nanoparticles on the mechanical and microstructural properties of diffusion brazed magnesium (AZ31) and aluminium (Al-1100) joints. The results showed that the addition of Al2O3 nanoparticle to the electrodeposited Cu coating increased the volume of eutectic liquid formed at the interface which caused a change to the bonding mechanism and accelerated the bonding process. When the Cu/Al2O3 nanocomposite coatings were used as the interlayer, a maximum bond strength of 46 MPa was achieved after 2 min bonding time while samples bonded using pure-Cu interlayers achieved maximum strength after 10 min bonding time. Chemical analysis of the bond region confirmed that when short bonding times are used, the intermetallic compounds formed at the interface are limited to the compounds consumed in the eutectic reaction. Microstructure Transient liquid phase diffusion brazing Nanoparticles Interlayer Electrodeposited
5	FABRICATION AND CHARACTERIZATION OF POROUS ALUMINA AND CADMIUM SULFIDE FOR OPTOELECTRONIC APPLICATIONS Jayaraman, Vivekanand 01 January 2004 (has links) In this research work, porous films on aluminum foil, with vertical through and through pores, were fabricated. The films were anodized at different applied voltages and the conditions were reported. In some cases, aluminum foil films were anodized under constant current conditions. Thicker aluminum films, referred to as aluminum tape in this thesis, were also anodized to get good porous films. While the porous alumina films using aluminum tape produced pores with good uniformity, the films did not produce through and through pores. Porous alumina films were also prepared on aluminum evaporated ITO substrate. The films on ITO substrate were different from the porous alumina films using aluminum foil/tape. In case of ITO substrate based films, an additional condition, temperature was also varied. The anodization process on ITO substrate based films was done at lower temperatures in order to reduce the effect of high currents on the process. The SEM images for different anodization conditions were compared and the porosity of films was calculated. CdS was electrodeposited inside porous alumina. D.C as well as a.c. voltages were applied and duration of the process was varied to study their effect on film morphology and the thickness of the deposited CdS. The current-voltage characteristics of the CdS-deposited alumina films were plotted and the phase of the electrodeposited CdS was found to be hexagonal using XRD.
6	Material characterization of multi-layered Zn-alloy coatings on fasteners : Effects on corrosion resistance, electrical conductivity and friction Vallien, Ante January 2018 (has links) Electroplated zinc-alloy coatings have been used on fasteners in the automotive industry for many years. The coating often consists of three layers: a zinc-alloy layer, a passivation layer and a sealer or top-coat. The coating layers affect the functional properties of the fastener (mainly the corrosion resistance, friction coefficient and electrical conductivity), and the aim of this thesis has been to increase the understanding of how these functional properties are affected by the properties of the coating. The corrosion resistance, friction coefficient and electrical conductivity of several different fasteners have been tested. Variations in these properties are connected with morphological and chemical properties of the electro-deposited zinc-alloy coating, passivation layer and sealer/top-coat of the fasteners. Measurement methods include scanning electron microscope and energy dispersive x-ray spectroscopy (SEM-EDX), light optical microscope (LOM), x-ray fluorescence (XRF), glow discharge optical emission spectroscopy (GD-OES), broad ion beam (BIB) and Fourier transform infrared spectroscopy (FTIR). From the results it can be concluded that the surface structure of zinc-nickel layers differs significantly from supplier to supplier. Screws with a thicker and rougher zinc-nickel surface structure displays higher friction values, but lower electrical resistance values. Optimisation of both of these properties is thus challenging. The distribution and surface structure of the outmost top-coat layer also differs between suppliers, but no connection between this and the functional properties of the screw has been found. The corners of the screw heads are often lacking a proper zinc-alloy coating, and this is also where corrosion is initiated. In general, the zinc-nickel alloy coating systems are performing better and display less corrosion spreading effects than the zinc-iron or pure zinc systems in terms of corrosion. / Elektropläterade zinklegeringsbeläggningar har använts på fästelement inom bilindustrin under många år. Beläggningen består ofta av tre skikt: ett zinklegeringsskikt, ett passiveringsskikt och en ”top-coat”, eller ”sealer”. Beläggningsskikten påverkar fästelementens funktionella egenskaper (främst korrosionsbeständighet, friktionskoefficient och elektrisk ledningsförmåga) och syftet med denna avhandling har varit att öka förståelsen för hur dessa funktionella egenskaper påverkas av ytbeläggningens egenskaper. Korrosionsmotståndet, friktionskoefficienten och den elektriska ledningsförmågan hos flera olika fästelement har mätts. Variationer i dessa egenskaper kopplas till de morfologiska och kemiska egenskaperna hos den elektropläterade zinklegeringsskiktet, passiveringsskiktet och top-coat-skiktet hos fästelementen. Mätmetoder inkluderar svepelektronmikroskop och röntgenspektroskopi (SEMEDX), ljusoptiskt mikroskop (LOM), röntgenfluorescens (XRF), optisk strålningsspektroskopi (GD-OES), bred jonstråle (BIB) och Fourier-transformerad infraröd spektroskopi (FTIR). Av resultaten kan man dra slutsatsen att ytstrukturen hos zink-nickelskiktet skiljer sig avsevärt från leverantör till leverantör. Skruvar med tjockare och hårdare zink-nickelytstruktur visar högre friktionsvärden, men lägre elektriska resistansvärden. Optimering av båda dessa egenskaper är således utmanande. Distributionen och ytstrukturen hos det yttersta top-coat-skiktet skiljer sig också mellan leverantörer, men ingen samband mellan detta och skruvens funktionella egenskaper har hittats. Skruvhuvudets hörn saknar ofta en lämplig zinklegeringsbeläggning, och det är också där korrosion initieras. I allmänhet fungerar zink-nickellegeringsbeläggningssystemen bättre och visar mindre spridningseffekter i termer av korrosion än zinkjärn eller rena zinksystem. ZnNi zinc alloy multi-layered coating electrodeposited coating fasteners corrosion resistance Metallurgy and Metallic Materials Metallurgi och metalliska material
7	Magnetic Characterization of Electrodeposited Nanocrystalline Ni and Ni-Fe alloys Arabi, Sahar 10 1900 (has links) <p>This research study has been devoted to the study of magnetic properties and magnetic transport of nanocrystalline Ni and Ni-15% Fe alloys consisting of randomly oriented grains with an average size of 23 and 12 (nm), respectively. The structures of the deposits were confirmed by the XRD analysis using Rietveld refinement technique. The as-deposited Ni and Ni-15%Fe sample was comprised exclusively of the γ phase with lattice parameter of 3.5270 (nm) and 3.5424 (nm), respectively. The small increase in lattice parameter was attributed to the replacement of iron solutes in the Ni sites in lattice. Texture analysis of nanocrystalline Ni and Ni-15%Fe revealed that textures components of both materials is qualitatively the same and vary in terms of volume fraction. Both material showed strong <100> fibre texture with some contribution of the <111> component. The calculated volume fraction of the <100> and <111> components were respectively 17.157% and 3.201% for Ni and, 22.032% and 6.160% for Ni-15%Fe and the rest being confined to the random texture.</p> <p>Magnetic measurements show that all samples exhibit low loss hysteresis loops with high permeabilities. The presence of 15%Fe in Ni leads to enhancement of the saturation magnetization (M<sub>s</sub>) regardless of the direction of the applied field. M<sub>s</sub> shows an increase from 60.169 (emu/gr) in nanocrystalline Ni to 93.67 (emu/gr) in Ni-15%Fe sample at T=2K. No strong temperature–dependence of the magnetization was observed for samples, but the magnetization of the Ni-15%Fe samples at T=2K were slightly higher than that of T=298K. The coercivity values of nanocrystalline Ni-15%Fe were in all cases smaller than that of nanocrystalline Ni samples. Good agreement between random anisotropy model (RAM) theory and experiment for nanocrystalline Ni and Ni-15%Fe samples was observed. The ferromagnetic exchange length (L<sub>ex</sub>) was larger than the average grain size (D) for samples at all times. The effective magnetic anisotropy constants (K<sub>eff</sub>) of the nanocrystalline Ni and Ni-15%Fe alloys were measured using the law of approach to saturation. At T=2K, the K<sub>eff</sub> of Ni-15%Fe samples were measured to be 1.7037´10<sup>5</sup> (erg/cm<sup>3</sup>) and 2.71996 ´10<sup>5</sup> (erg/cm<sup>3</sup>) at field parallel and perpendicular, respectively. These values were almost half of the values obtained for nanocrystalline Ni samples 4.66091´10<sup>5</sup> (erg/cm<sup>3</sup>) and 4.19703´10<sup>5</sup> (erg/cm<sup>3</sup>). Temperature dependence measurements showed that K<sub>eff</sub> constants decrease with increasing temperature. The angular dependence MR studies on nanocrystalline Ni and Ni-15%Fe resulted in a twofold, and a fourfold symmetric behaviour, respectively. The field dependence MR measured at various sample tilt with respect to the applied field, showed various trends from pure positive MR to pure negative MR, which partially could be explained by magnetocrystalline anisotropy of the samples.</p> / Master of Applied Science (MASc) Electrodeposited Nanocrystalline Magnetic properties and measurements Ni-Fe alloy Anisotropic Magnetoresistance Texture Other Materials Science and Engineering Other Materials Science and Engineering
8	Toward an energy harvester for leadless pacemakers Deterre, Martin 09 July 2013 (has links) (PDF) This work consists in the development and design of an energy harvesting device to supply power to the new generation pacemakers, miniaturized leadless implants without battery placed directly in heart chambers. After analyzing different mechanical energy sources in the cardiac environment and associated energy harvesting mechanisms, a concept based on regular blood pressure variation stood out: an implant with a flexible packaging that transmits blood forces to an internal transducer. Advantages compared to traditional inertial scavengers are mainly: greater power density, adaptability to heartbeat frequency changes and miniaturization potential. Ultra-flexible 10-µm thin metal bellows have been designed, fabricated and tested. These prototypes acting as implant packaging that deforms under blood pressure actuation have validated the proposed harvesting concept. A new type of electrostatic transducer (3D multi-layer out-of-plane overlap structure with interdigitated combs) has been introduced and fully analyzed. Promising numerical results and associated fabrication processes are presented. Also, large stroke optimized piezoelectric spiral transducers including their complex electrodes patterns have been studied through a design analysis, numerical simulations, prototype fabrication and experimental testing. Apower density of 3 µJ/cm3/cycle has been experimentally achieved. With further addressed developments, the proposed device should provide enough energy to power autonomously and virtually perpetually the next generation of pacemakers. Cardiac implant Leadless pacemaker Energy harvesting Flexible packaging Electrodeposited bellows Electrostatic transducer Multi-layer comb structure Piezoelectric transducer Piezoelectric spiral
9	Physikochemische Untersuchungen zur Wirkung von Korrosionsschutzbeschichtungen Azizi, Mazen 19 September 2001 (has links) (PDF) Ziel der durchgeführten Arbeiten war, verschiedene Oxide mit elektrochemischen Methoden in eine Zinkschicht einzubauen. Um den Mechanismus der Dispersionsabscheidung aufzuklären wurden die Feststoffpartikeln durch Zetapotentialmessungen, Partikelgrößenanalyse und die Bestimmung der spezifischen Oberfläche charakterisiert. Außerdem wurde die Abhängigkeit der Partikel-Einbaurate in den abgeschiedenen Zinkschichten von der Art des Bades, der Partikelkonzentration im Bad, der Rührgeschwindigkeit, dem pH-Wert, der Mahlung der Partikeln, der Art des elektrischen Stromes und der Elektrodenanordnung untersucht. Der Anteil an Oxiden in den Zinkschichten wurde mit verschiedenen Meßmethoden analysiert. Die optimierten Dispersionsschichten sind durch verschiedene Methoden charakterisiert worden. Dispersionsabscheidung Korrosionsschutz Verzinkung Zink-Dispersionsschichten corrosion electrodeposited zinc coating zinc composites ddc:30 rvk:VE 6307 Dispergierung Korrosionsschutz Schutzschicht Stahl Zink Zinkoxid galvanische Abscheidung physikalisch-chemische Messung
10	Селективное вольтамперометрическое определение хлорамфеникола с использованием производных карбазола в качестве агентов самостоятельного молекулярного распознавания : магистерская диссертация / Selective voltammetric determination of chloramphenicol using carbazole derivatives as independent molecular recognition agents Козырина, Ю. В., Kozyrina, Y. V. January 2023 (has links) Настоящая работа состоит из 3 глав, заключения и списка используемых источников. Работа посвящена разработке способа селективного вольтамперометрического определения хлорамфеникола с использованием производных карбазола в качестве агентов молекулярного распознавания. Обоснована актуальность детектирования хлорамфеникола – антибиотика водного экотоксиканта. Рассмотрена альтернатива биологическим рецепторам оригинальными органическими молекулами для электрохимических и флуорометрических методов детектирования хлорамфеникола, а также подходы к электроосаждению рецепторного слоя. В работе изучена возможность применения оригинальной органической молекулы производного карбазола для определения хлорамфеникола. Приведены аналитические характеристики разработанного селективного способа определения хлорамфеникола. / This work consists of 3 chapters, a conclusion and a list of sources used. The work is devoted to the development of a method for selective voltammetric determination of chloramphenicol using carbazole derivatives as molecular recognition agents. The urgency of detecting chloramphenicol, an antibiotic of an aquatic ecotoxicant, is substantiated. An alternative to biological receptors with original organic molecules for electrochemical and fluorometric methods for detecting chloramphenicol, as well as approaches to electrodeposition of the receptor layer, are considered. The possibility of using an original organic molecule of a carbazole derivative for the determination of chloramphenicol has been studied. The analytical characteristics of the developed selective method for the determination of chloramphenicol are given. СЕЛЕКТИВНОЕ ВОЛЬТАМПЕРОМЕТРИЯ КАРБАЗОЛ ЭЛЕКТРООСАЖДЕНИЕ ФЛУОРОМЕТРИЯ ФЛУОРОФОР MASTER'S THESIS DETERMINATION OF CHLORAMPHENICOL SELECTIVE VOLTAMMETRY CARBAZOLE ELECTRODEPOSITED SENSOR ELECTRODEPOSITION FLUOROMETRY FLUOROPHORE

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