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121	Comparison of Graphene-Modified Carbon-Fiber Microelectrodes with Fast-Scan Cyclic Voltammetry Brantley, Rebekah January 2022 (has links) No description available. Analytical Chemistry Dopamine Melatonin Serotonin Electrodeposition Fouling Carbon Materials
122	Effect of heat-treatment on the thermal and mechanical stability of Ni/Al2O3 nanocrystalline coatings Cooke, Kavian O., Khan, T.I., Shar, Muhammad A. 25 November 2020 (has links) Yes / Heat-treatment is a frequently used technique for modifying the physical and chemical properties of materials. In this study, the effect of heat-treatment on the mechanical properties, thermal stability and surface morphology of two types of electrodeposited coatings (pure-Ni and Ni/Al2O3) were investigated. The XRD analyses showed that the crystal structure of the as-deposited coating changes from slightly amorphous to crystalline as the heat-treatment temperature increases. The heat-treatment of both the pure-Ni and the Ni/Al2O3 coating caused an increase of the grain size within the coatings. However, the unreinforced Ni coating experienced a faster growth rate than the Ni/Al2O3 coating, which resulted in a larger average grain size. The temperature-driven changes to the microstructure of the coatings caused a reduction in the hardness and wear resistance of the coatings. The presence of nanoparticles within the Ni/Al2O3 coating can successfully extend the operational temperature range of the coating to 473 K by pinning grain boundaries. Co-electrodeposition Grain growth Heat treatment Nanocrystalline Sliding wear
123	From Electrodeposited InSb to Photonic Crystals and Nanopatterned Molecular Templates Fulop, Tiberiu G. 15 July 2004 (has links) No description available. Physics, Condensed Matter electrodeposition InSb Photonic Crystal Nanopattern
124	Analysis Of The ‘Bottom–Up’ Fill During Copper Metallization Of Semiconductor Interconnects Akolkar, Rohan N. January 2005 (has links) No description available. Engineering, Chemical Copper Electrodeposition Bottom-up Fill Additives Mathematical Modeling
125	Development of Noble Metal Nanowires with Ultrahigh Surface to Volume Ratios Shrivastava, Isha January 2013 (has links) No description available. Biomedical Engineering Nanoscience Nanotechnology nanowires electrodeposition AAO nanopores aluminum gold
126	ELECTROCHEMICAL FABRICATION OF THIN FILM PHOTOVOLTAIC DEVICES (CIGS & CIGSS) Saeed, Mahfouz Ali 12 June 2014 (has links) No description available. Chemical Engineering
127	ELECTRODEPOSITION OF ORGANOFUNCTIONAL SILANES FOR IMPROVED CORROSION PROTECTION OF METALS GANDHI, JASPREET SINGH January 2004 (has links) No description available. Organofunctional Silanes Electrodeposition Corrosion Aluminum Electrochemical Impedance Spectroscopy
128	Study of Fabrication of Nanoporous Ni-Zr Anode for Solid Oxide Fuel Cell Using Electrodeposition Technique Pothula, Surya Venkata Subhash 14 June 2010 (has links) No description available. Mechanical Engineering Solid Oxide Fuel cell Electrodeposition Anode
129	Élaboration et modélisation de la cinétique d'électropolymerisation de polymères conducteurs sous champ magnétique / Development and modeling of the kinetics of electron polymerization of conductive polymers in a magnetic field Ali Omar, Ahmed-Yassin 12 December 2016 (has links) Les effets de la force magnétique orthogonale (MF) sur le processus d'électropolymérisation de l'aniline dans une solution d’acide chlorhydrique ont été étudiés.La voltammétrie cyclique (CV), la chronoampérométrie et la spectroscopie d'impédance électrochimique (EIS), ont été utilisées pour examiner le processus de transfert de masse et le processus de réaction électrochimique. Différentes techniques, telles que la microscopie électronique à balayage (MEB), la microscopie à force atomique (AFM) et la diffraction à rayons X (XRD) ont été utilisées pour caractériser les revêtements préparés.Les résultats montrent que la vitesse de dépôt augmente avec la force magnétique et la concentration du monomère d’aniline en raison de la convection magnétique et les propriétés magnétiques du radical.L’imagerie MEB et l'analyse topologique ont révélé que, sous MF les films sont essentiellement composés de gonflement des nanofibres et des ilots des polymères qui sont bien répartis sur la surface. Les études de diffraction à rayons X révèlent une amélioration de la cristallinité des couches, sans orientations préférentielles.Mots clés: polymère, polyaniline, aniline, champ magnétique, électropolymerisation, impédance électrochimique, DFT, susceptibilité magnétique. / The effects of static orthogonal magnetic force (MF) on the electropolymerization process of aniline from hydrochloric bath have been investigated. Cyclic voltammetry (CV), Chronoamperometry and electrochemical impedance spectroscopy (EIS) techniques were used to examine the mass transfer process and electrochemical reaction process. Different techniques, such as Scanning Electron Microscopy (SEM), Atomic Force Microscopy (AFM) and X-ray Diffraction (XRD) were employed to characterize the prepared coatings. The results show that deposit rate increased with increasing MF and aniline monomer concentration due to the magneto-convection involving the mass transport and radical magnetic properties. SEM imagery and topological analysis revealed that under MF the films are essentially composed of swelling of the nanofibers and ilots of polymers that are well distributed on the surface. The XRD studies reveal an enhancement of the crystallinity of the coatings without any preferential orientations.Keywords: Polymers, Polyaniline, aniline, Magnetic fiels, Electropolymerization, electrochemical impedance, DFT, magnetic susceptibility . Polymeres conducteurs Polymerisation Champ magnetique Electrodeposition Poyalinine Aniline Conductive polymers Polymerisation Magnetic field Electrodeposition Poyalinine Aniline 541.3
130	Influencia dos parametros de processo na qualidade do revestimento de zinco/cobalto / Influence of depositon parameters on the quality of zinc/cobalt Machado, Carlos Henrique de Campos 13 August 2018 (has links) Orientador: Rodnei Bertazzoli / Dissertação (mestrado) - Universidade Estadual de Campinas, Faculdade de Engenharia Mecanica / Made available in DSpace on 2018-08-13T22:40:42Z (GMT). No. of bitstreams: 1 Machado_CarlosHenriquedeCampos_M.pdf: 20350934 bytes, checksum: 9d0ed15edcf31e375ad6d36587a7ca3f (MD5) Previous issue date: 2009 / Resumo: o processo de deposição das ligas de zinco vem encontrando aplicações cada vez maiores na indústria de galvanoplastia, especificamente na produção de auto peças destinadas às empresas montadoras de veículos. Neste trabalho, o processo de deposição da liga Zn-Co foi estudado através da técnica de voltametria cíclica para kientificar as regiões de potenciais para a deposição dos constituintes da liga. A seguir, foram simuladas variações composicionais e operacionais do eletrólito para deposição da liga Zn-Co, normalmente observadas em linhas de produção. Adicionalmente, além das variações do eletrólito, foram estudadas amostras de peças (ferro fundido nodular como substrato) obtidas em condições adversas de processamento. O objeti,vo foi estudar a influência desses parâmetros na composição final do depósito, e na resistência à corrosão através de ensaios acelerados em câmara de névoa salina. O processo para deposição da líga Zn-Co apresentou boa estabilidade e', baixa sensibilidade às variações de concentração que podem ocorrer no cotidiano de uma linha de produção. Os ensaios em célula de Hull mostraram que variações deliberadas de 2 g.L-1 a 8 g.L-1 de Co (II) no banho produzem depósitos com 0,6 % a 1,6 % de Co na liga. Na faixa recomendada de trabalho de 4 g.L-1 a 6 g.L-1. obtém-se 0,9 % a 1,2 %. Os ensaios acelerados de corrosão em câmara de névoa salina mostraram que, mesmo nas condições mais improváveis de funcionamento, onde o teor de cobalto pode cair para 0,6 %, a camada resiste a mais de 500 horas de ensaio. Tempo de ensaio de 720 horas foi obtido quando [Zn(II)]=46 g.L-1 e [Co(II)]=4,6 g.L-1. ou seja, [Zn(II)]/[Co(II)]=10 / Abstract: Zinc alloy coatings have found large application in the metal finishing índustry, particularly for coatíng automotive parts. In thís work, the deposítíon of Zn-Co process was characterízed by cyclic voltammetry in order to identify the rangCe of deposition potential of the alloy and its constituents. Then, variations of deposition parameters and bath composition were símulated in order to study their influence on the coating properties. In addition, beside plating variation, samples produced under qnideal process condítion were studied. The plating bath presented good stability and low sensibility to variations usually observed in the industrial production. Hull-cell, experiments shown that, despite the deliberated changes in bath composítion, ,cobalt concentration in the alloy is always wíthín the range of 0,6 % to 1,6 %. Recommended values are from 0,9 % to 1,2 %. Salt spray tests shown that the Zn-Co coating lasted 500 h of test and, in the optimum deposition conditions, 720 h was obtained / Mestrado / Materiais e Processos de Fabricação / Mestre em Engenharia Mecânica Ligas de zinco Eletrodeposição de ligas (Metalurgia) Eletrodeposição Metais - Acabamento Revestimentos de metal Zinc alloys Electrodeposition of alloys Electrodeposition Metals finishing Metal coating

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