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Conductivity tin oxide

First, injection occurs from the photoexcited dye into the tin oxide conduction band, but is followed by very rapid trapping at a site that is energetically close to the conduction band and physically close to the dye. Trapping is accompanied by rapid, charge-compensating uptake of a proton—either from a hydronium ion or from a water molecule. Perhaps because of the proton uptake, the trapped electron remains proximal to the dye for at least a few hundred nanoseconds. The proximity enables each electron to return precisely to the dye that initially injected it. In other words, the recombination is geminate and the process is first... [Pg.115]

Fig. 32. Field emission microscope for adsorption studies. A—gas bottle B—break off seal C—inverted ionization gauge (also serves as selective getter) D—Granville-Phillips valve E—ionization gauge F—grounding rings G—double Dewar H—emitter assembly (tip mounted on hairpin support wire, equipped with potential leads for measuring resistance) I—anode terminal J—willemite screen settled onto tin-oxide conductive coating K—ground glass port L—trap. Fig. 32. Field emission microscope for adsorption studies. A—gas bottle B—break off seal C—inverted ionization gauge (also serves as selective getter) D—Granville-Phillips valve E—ionization gauge F—grounding rings G—double Dewar H—emitter assembly (tip mounted on hairpin support wire, equipped with potential leads for measuring resistance) I—anode terminal J—willemite screen settled onto tin-oxide conductive coating K—ground glass port L—trap.
Yasuda et al. performed dielectric relaxation measurements on metastable solid MBBA, using a parallel-plate capacitor. Glass plates with strips of transparent tin-oxide-conducting coating served as electrodes. The cell was mounted in a copper beryllium pressure vessel, pressurized with liquid isopentane. A similar setup was used for the study of ferroelectric liquid crystals. Ferroelectric liquid crystals have also been studied by Chandrasekhar and co-workers who used a sapphire cell setup in a high-pressure apparatus. The sample was sandwiched... [Pg.166]

Figure C1.5.12.(A) Fluorescence decay of a single molecule of cresyl violet on an indium tin oxide (ITO) surface measured by time-correlated single photon counting. The solid line is tire fitted decay, a single exponential of 480 5 ps convolved witli tire instmment response function of 160 ps fwiim. The decay, which is considerably faster tlian tire natural fluorescence lifetime of cresyl violet, is due to electron transfer from tire excited cresyl violet (D ) to tire conduction band or energetically accessible surface electronic states of ITO. (B) Distribution of lifetimes for 40 different single molecules showing a broad distribution of electron transfer rates. Reprinted witli pennission from Lu andXie [1381. Copyright 1997 American Chemical Society. Figure C1.5.12.(A) Fluorescence decay of a single molecule of cresyl violet on an indium tin oxide (ITO) surface measured by time-correlated single photon counting. The solid line is tire fitted decay, a single exponential of 480 5 ps convolved witli tire instmment response function of 160 ps fwiim. The decay, which is considerably faster tlian tire natural fluorescence lifetime of cresyl violet, is due to electron transfer from tire excited cresyl violet (D ) to tire conduction band or energetically accessible surface electronic states of ITO. (B) Distribution of lifetimes for 40 different single molecules showing a broad distribution of electron transfer rates. Reprinted witli pennission from Lu andXie [1381. Copyright 1997 American Chemical Society.
Another growing apphcation that overlaps the electrically functional area is the use of transparent conductive coatings or tin oxide, indium—tin oxide, and similar materials in photovoltaic solar ceUs and various optic electronic apphcations (see Photovoltaic cells). These coatings are deposited by PVD techniques as weU as by spray pyrolysis, which is a CVD process. [Pg.51]

Spray Pyrolysis. In spray pyrolysis, a chemical solution is sprayed on a hot surface where it is pyrolyzed (decomposed) to give thin films of either elements or, more commonly, compounds (22). Eor example, to deposit CdS, a solution of CdCl plus NH2CSNH2 (thiourea) is sprayed on a hot surface. To deposit Iu202, InCl is dissolved in a solvent and sprayed on a hot surface in air. Materials that can be deposited by spray pyrolysis include electrically conductive tin—oxide and indium/tin oxide (ITO), CdS, Cu—InSe2, and CdSe. Spray pyrolysis is an inexpensive deposition process and can be used on large-area substrates. [Pg.528]

Tin oxide and indium oxide [1312-43-2] Iu202, are other important semiconductors that are doped to increase conductivity. Sn02, Iu202, Ti02, and in particular, SrTiO, are transparent to visible light and are often used as transparent electrodes, for example, on vidicon tubes. [Pg.358]

The changes in the optical absorption spectra of conducting polymers can be monitored using optoelectrochemical techniques. The optical spectmm of a thin polymer film, mounted on a transparent electrode, such as indium tin oxide (ITO) coated glass, is recorded. The cell is fitted with a counter and reference electrode so that the potential at the polymer-coated electrode can be controlled electrochemically. The absorption spectmm is recorded as a function of electrode potential, and the evolution of the polymer s band stmcture can be observed as it changes from insulating to conducting (11). [Pg.41]

Steam-turbine lubricants Lubricants in steam turbines are not exposed to such arduous conditions as those in engines. The main requirement is for high oxidation stability. However, they may be exposed to aqueous condensate or, in the case of marine installations, to sea water contamination, so they have to be able to separate from water easily and to form a rustpreventing film on ferrous surfaces, and it is usual to employ rust inhibitors. The problem of tin oxide formation on white-metal bearings is associated with the presence of electrically conducting water in lubricants and can be over-come by keeping the lubricant dry . [Pg.452]

Sn02 is codeposited with indium oxide to form a compound known as indium tin oxide (ITO), widely used as a transparent conductive film. ITO is usually deposited by sputtering and little work on CVD has been reported. [Pg.308]

Sn02 and indium tin oxide (ITO) for conductive transparent coatings on glass for electromagnetic interference (EMI) applications. [Pg.406]

Figure 33.1a illustrates the idea of the smart window. In this device a layer of electrochromic material and a layer of a transparent ion-conducting electrolyte are sandwiched between two optically transparent electrodes (OTEs). Indium-doped tin oxide on glass is used most commonly as the OTE. This material has very low... [Pg.621]

In IMS, supportive materials, whose surfaces are coated with conductive materials, are used in principal. In the simplest way, the tissue slices can be placed on a metal MALDI plate directly.9 In this case, however, the target plate must be cleaned carefully after the measurement is over. Currently, the method commonly used is that samples are prepared on a disposable plastic sheet or a glass slide coated with series of conductive materials. In particular, a plastic sheet (ITO sheet) or glass slide (ITO glass slide available from Bruker Daltonics K.K., Billerica, MA, or Sigma, St. Louis, MO) coated with ITO (indium-tin oxide) is useful because it has superior optical transparency... [Pg.373]

See other pages where Conductivity tin oxide is mentioned: [Pg.721]    [Pg.116]    [Pg.303]    [Pg.331]    [Pg.163]    [Pg.635]    [Pg.37]    [Pg.723]    [Pg.242]    [Pg.191]    [Pg.267]    [Pg.721]    [Pg.116]    [Pg.303]    [Pg.331]    [Pg.163]    [Pg.635]    [Pg.37]    [Pg.723]    [Pg.242]    [Pg.191]    [Pg.267]    [Pg.2562]    [Pg.245]    [Pg.80]    [Pg.472]    [Pg.362]    [Pg.392]    [Pg.291]    [Pg.536]    [Pg.41]    [Pg.295]    [Pg.410]    [Pg.425]    [Pg.141]    [Pg.385]    [Pg.385]    [Pg.87]    [Pg.185]    [Pg.352]    [Pg.459]    [Pg.545]    [Pg.114]    [Pg.171]    [Pg.119]    [Pg.8]    [Pg.583]    [Pg.274]    [Pg.21]   
See also in sourсe #XX -- [ Pg.30 , Pg.108 ]

See also in sourсe #XX -- [ Pg.108 ]



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Conductivity oxides

Tin oxide

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