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Study of NiO Electrochromic Films Prepared by Liquid Phase DepositionFan, Cho-Han 26 July 2005 (has links)
The electrochromic materials are capable of changing their optical properties (transmittance and/or reflectance) under applied electric potentials; when that potential is stopped or it goes on reverse, these materials keep or return to its original optical state in a reversible way. The variation of the optical properties is caused by of insertion/extraction of cations in the electrochromic film.
The as-deposited LPD-NiO film is also uniform and transparent. The LPD-NiO film is light gray after coloring; the transparency ratio (£GT%) can reach about 48% at the wavelength of 550 nm. After annealing in 300oC, the bleached state almost approaches that of original state before colored. We expect that the electrochromic device combined LPD-TiO2 and LPD-NiO films can enhance the coloration efficiency.
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The rotational movement and coalescence of Au¡BAg and Pt nano-grains on NiO (100) plane.Xu, Jia-Yao 12 July 2007 (has links)
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Early stage sintering of NiO and CoOYeh, Yi-chi 22 July 2008 (has links)
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Defect microstructure, phase behavior of NiO-SnO2 ceramic compositesLin, Hsin-yi 17 July 2009 (has links)
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A microstructure analysis of the interface between BaTiO3 dielectric and Ni electrodeLee, Kun-Hsu 07 July 2006 (has links)
The BaTiO3 sample was made by dry pressure, it was artificial spread nickel paste on BaTiO3, and it was simulated multilayer ceramic capacitors (MLCC¡¦s) to make a sandwich structure with BaTiO3-Ni-BaTiO3 by sintered in YAGEO¡¦s laboratories. The samples have been thoroughly analysis for the interface between BaTiO3 dielectric and Ni electrode or NiO oxide, by X-ray diffractometry, scanning electron microscopy, and transmission electron microscopy.
The interface between BaTiO3 and Ni has not orientation relationship as determined by selected area diffraction and it¡¦s not had dislocations in interface by two- beam image.
The NiO oxide as determined by XRD and TEM, because of the thermodynamic potential of the Ni/NiO equilibrium was produced. The array of dislocations of Burgers vector is 1/2[ 10] in the interface, and Burgers vectors are 1/2[00 ], [ 1 ] as determined by high resolution images and Fast Fourier Transform simulation. Misfit dislocations along the interface occur to accommodate the lattice mismatch.
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Elevernas röster : en kvalitativ studie om elevers tankar inför de nationella proven i år nioNordström, Emanuel, Lundqvist, Victor January 2013 (has links)
No description available.
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Optimisation de films minces électrochromes à base d’oxyde de nickel / Optimization of nickel oxide-based electrochromic thin filmsPark, Dae Hoon 08 June 2010 (has links)
Dans la perspective du développement de vitrages électrochromes « en milieu protonique », des films minces électrochromes à coloration anodique, à base d’oxyde de nickel, ont été synthétisés et caractérisés. Afin d’améliorer la durabilité des films minces à base de NiO, trois approches ont été envisagées. (i)Des films d’oxyde de nickel et d’oxyde mixte nickel/lithium, déposés par PLD (Pulsed Laser Deposition). Nous avons étudié l’influence du lithium sur les propriétés physico-chimiques (‘amorphisation..), et les caractéristiques électrochromes (électrochimique-optique) en milieu aqueux KOH 1M. (ii) Des films composites, préparés par voie chimique (solution), constitués d’une phase amorphe (en diffraction des Rayons X), de composition Ti1-xZnxO2-x?x, englobant des cristallites de NiO de ~ 5 nm de diamètre. Les courbes voltampérométriques révèlent que seule la phase NiO est électrochimiquement active, mais la phase amorphe, grâce aux lacunes anioniques neutres, ?x, renforce la tenue mécanique des films déposés sur les substrats FTO/verre. Il s’ensuit que ces films composites sont plus stables au cyclage, en milieu aqueux KOH 1M, que leurs homologues TiO2/NiO. (iii) Des films minces d’oxyde de nickel dopés par du carbone, préparés par une voie sol-gel originale, présentant une remarquable tenue en cyclage (> 25000 cycles en milieu aqueux KOH 1M), jamais observée jusqu’ici pour NiO. / Aiming at enhancing the electrochromic properties of NiO thin films, deposited on FTO substrates, we have employed three different approaches. They deal with: 1) lithium doping of NiO, the corresponding thin film-deposition method is PLD (Pulsed Laser Deposition); 2) NiO nanoparticles embedded into zinc doped amorphous titanium oxide matrix, a solution method is used to deposit the corresponding thin films ; 3) Carbon-doped NiO thin films deposited using, a specific sol-gel method. Owing to lithium doping of NiO, we could induce film amorphization, thereby enhancing the film electrochemical-capacity. Most importantly, the adhesion between the film and the FTO substrate was improved leading to enhanced electrochemical cyclability in aqueous KOH electrolyte. We could enhance the electrochromic performances of TiO2/NiO composite thin films by doping TiO2 with Zn2+, forming to a new composite thin film Ti1-xZnxO2-x?x-NiO. Finally we have successfully stabilized the electrochromic properties (durability and optical property) of NiO thin films in aqueous KOH electrolyte, owing to the development of a specific sol-gel method leading to carbon-doped NiO nanoparticles. For the first time 25000 cycles were successfully achieved without significant decrease of the electrochromic performances.
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Efeito do tratamento t?rmico do tit?nio sobre a prolifera??o de c?lulas pr?-osteobl?sticasMacedo, Haroldo Reis Alves de 20 August 2008 (has links)
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Previous issue date: 2008-08-20 / Conselho Nacional de Desenvolvimento Cient?fico e Tecnol?gico / Titanium is a biomaterial widely employed in biomedical applications (implants, prostheses, valves, stents). Several heat treatments are usually used in order to obtain physical properties required to different applications. This work studied the influence of the heat treatment on microstructure of commercial pure titanium, and their consequences in growth and proliferation of MC3T3-E1 cells. Discs of titanium were treated in different temperatures, and characterized by optical microscopy, image analysis, wettabillity, roughness, hardness and X-ray diffraction. After the heat treatment, significant modifications in these properties were observed. Pattern images of titanium, before and after the cell culture, were compared by overlapping to analyze the influence of microstructure in microstructure and preferences guidance cells. However, in general, titanium discs that showed a higher residual strength also presented an increase of cells numbers on surface / O tit?nio como biomaterial ? amplamente utilizado em dispositivos biom?dicos (implantes, pr?teses, v?lvulas, stents entre outros). Diversos tratamentos t?rmicos s?o usualmente utilizados na obten??o das propriedades necess?rias para as diferentes aplica??es. Este trabalho estudou a influ?ncia desses tratamentos na microestrutura do tit?nio comercialmente puro e suas conseq??ncias no crescimento, forma e prolifera??o de c?lulas pr?-osteobl?stica. Para tanto foram utilizados discos de tit?nio submetidos a diferentes tratamentos e caracterizados por microscopia ?tica, an?lise de imagens, molhabilidade, rugosidade, dureza e difra??o de raios-X. Ap?s os tratamentos t?rmicos foram verificado modifica??es significantes nestas propriedades. Padr?es de imagens de superf?cies do tit?nio antes e ap?s a cultura de c?lula foram comparados atrav?s de sobreposi??o para analisar a influ?ncia da microestrutura na resposta biol?gica, n?o sendo verificadas correla??es entre a microestrutura e as prefer?ncias orientacionais das c?lulas. Entretanto de um modo geral verificou-se que os discos que presentaram maior estado de tens?o residual apresentaram tamb?m maior n?mero de c?lulas em sua superf?cie
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Enhancement of Thermally Injected Spin Current through an Antiferromagnetic InsulatorLin, Weiwei, Chen, Kai, Zhang, Shufeng, Chien, C. L. 05 May 2016 (has links)
We report a large enhancement of thermally injected spin current in normal metal (NM)/antiferromagnet (AF)/yttrium iron garnet (YIG), where a thin AF insulating layer of NiO or CoO can enhance the spin current from YIG to a NM by up to a factor of 10. The spin current enhancement in NM/AF/YIG, with a pronounced maximum near the Neel temperature of the thin AF layer, has been found to scale linearly with the spin-mixing conductance at the NM/YIG interface for NM = 3d, 4d, and 5d metals. Calculations of spin current enhancement and spin mixing conductance are qualitatively consistent with the experimental results.
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Optimisation de films minces électrochromes à base d'oxyde de nickelPark, Dae-Hoon 08 June 2010 (has links) (PDF)
Dans la perspective du développement de vitrages électrochromes « en milieu protonique », des films minces électrochromes à coloration anodique, à base d'oxyde de nickel, ont été synthétisés et caractérisés. Afin d'améliorer la durabilité des films minces à base de NiO, trois approches ont été envisagées. (i)Des films d'oxyde de nickel et d'oxyde mixte nickel/lithium, déposés par PLD (Pulsed Laser Deposition). Nous avons étudié l'influence du lithium sur les propriétés physico-chimiques (‘amorphisation..), et les caractéristiques électrochromes (électrochimique-optique) en milieu aqueux KOH 1M. (ii) Des films composites, préparés par voie chimique (solution), constitués d'une phase amorphe (en diffraction des Rayons X), de composition Ti1-xZnxO2-x□x, englobant des cristallites de NiO de ~ 5 nm de diamètre. Les courbes voltampérométriques révèlent que seule la phase NiO est électrochimiquement active, mais la phase amorphe, grâce aux lacunes anioniques neutres, □x, renforce la tenue mécanique des films déposés sur les substrats FTO/verre. Il s'ensuit que ces films composites sont plus stables au cyclage, en milieu aqueux KOH 1M, que leurs homologues TiO2/NiO. (iii) Des films minces d'oxyde de nickel dopés par du carbone, préparés par une voie sol-gel originale, présentant une remarquable tenue en cyclage (> 25000 cycles en milieu aqueux KOH 1M), jamais observée jusqu'ici pour NiO.
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