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Zinc oxide transducer

A number of works are devoted to the electrochemical preparation of ZnO, which may have application in photocatalysis, ceramics, piezoelectric transducers, chemical sensors, photovoltaics, and others. ZnO has the same band-gap energy as Ti02, and the oxygenation capacities for both compounds should be similar. Ya-maguchi et al. [155] prepared photoactive zinc oxide films by anodizing a zinc plate. Such films could decompose gaseous acetaldehyde with the aid of black lights. [Pg.737]

Fig. 2.1. A lens for high-resolution acoustic microscopy in reflection. The central transparent part is a single crystal of sapphire, with its c-axis accurately parallel to the axis of the cylinder. The sandwich structure at the top is the transducer, with the yellow representing an epitaxially grown layer of zinc oxide between two gold electrodes. The pink shaded areas within the sapphire represent the plane-wavefronts of an acoustic pulse they are refracted at the lens cavity so that they become spherical in the coupling fluid. A lens for use at 2 GHz would have a cavity of radius 40f[Pg.8]

Crystalline nanorings, literally closed circular nanoparticles with a hollow centre, were first prepared from zinc oxide in 2004 by a spontaneous self-coiling process from polar nanobelts.44 Semiconductor nanorings and indeed interestingly shaped nanoobjects in general, promise much in the way of applications as tools to probe fundamental physical phenomena and as nanoscale sensors, transducers, and resonators. [Pg.956]

The role of the piezoelectric transducer is to convert electric signals to acoustic signals, and back again. Zinc oxide is used typically for the transducer at frequencies of 100 MHz or more. The transducer is sputtered onto the electrode (lower portion) deposited on the polished surface of the buffer rod. Electrode is made from either chromium-gold or titanium-gold. The electrode (upper portion) is deposited on the zinc oxide using a mask plate for matching the center of the electrode (upper portion) and that of the lens. [Pg.415]

Fig. 1. Schematic representation of a battery system also known as an electrochemical transducer where the anode, also known as electron state 1, may be comprised of lithium, magnesium, zinc, cadmium, lead, or hydrogen, and the cathode, or electron state 11, depending on the composition of the anode, may be lead dioxide, manganese dioxide, nickel oxide, iron disulfide, oxygen, silver oxide, or iodine. Fig. 1. Schematic representation of a battery system also known as an electrochemical transducer where the anode, also known as electron state 1, may be comprised of lithium, magnesium, zinc, cadmium, lead, or hydrogen, and the cathode, or electron state 11, depending on the composition of the anode, may be lead dioxide, manganese dioxide, nickel oxide, iron disulfide, oxygen, silver oxide, or iodine.
See other pages where Zinc oxide transducer is mentioned: [Pg.42]    [Pg.42]    [Pg.194]    [Pg.13]    [Pg.117]    [Pg.5183]    [Pg.240]    [Pg.5182]    [Pg.364]    [Pg.381]    [Pg.15]    [Pg.2]    [Pg.229]    [Pg.431]    [Pg.463]    [Pg.110]    [Pg.292]   
See also in sourсe #XX -- [ Pg.13 , Pg.43 , Pg.72 ]



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