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Copper oxide lattice

Table 6.7 Some HTSC Materials Based on the Copper Oxide Lattice... Table 6.7 Some HTSC Materials Based on the Copper Oxide Lattice...
At medium and high temperatures copper ultimately follows the parabolic law " . It has been shown " using radioactive tracers that the diffusion of copper ions in cuprous oxide is the rate-determining step at 8(X)-1 000°C, and there is considerable evidence in favour of the view that metal moves outwards through the film by means of vacant sites in the oxide lattice . [Pg.703]

About 20 HTe superconducting compounds and copper oxidic systems Correlations of the Cu NQR/NMR data with the Cu( Zn) emission Mossbauer data for HTSC lattices as a tool for the determination of atomic charges... [Pg.267]

Reinen and Grefer (116) have measured the d—d spectra of distorted tetrahedral Cu04 chromophores in mixed oxides. This work concerns copper-doped lattices such... [Pg.102]

The highest transition temperature for the "tungsten bronze" family was 7.7 K for an acid-etched (71) sample of composition Rb o g3W03. Certain researchers (62), after completing studies on cubic and tetragonai-II (semiconducting) bronzes, made the statement "It appears as though the (cubic) perovskite lattice is not favorable for superconductivity." This statement was made in 1965, prior to the major advances in copper oxides that are considered to have a related-perovskite structure. [Pg.40]

The intent of this chapter is twofold. One is to give brief structural descriptions of many of the copper-oxide superconductors. For in-depth information, the reader is referred to the original publications. The second is to provide detailed crystallographic information (lattice constants, positional and thermal parameters, space groups, etc.), and compositional data on many of the superconductors discussed. Also, calculated x-ray powder diffraction patterns for these same compounds are tabulated. It is hoped that such information will prove useful to the superconductivity researcher. [Pg.488]

On the other hand, it may be used a secondary effect, namely creation of deformation (distortion) wave in the copper oxide sample, which because of above should lead to the formation of CDW (and hence SDW) state in the volume of a sample with corresponding increase in Tc. It seems likely that namely such methods was used in [18] where thin (15 nm) film of LSCO was grown with block-by-block molecular epitaxy (defect-free growth process) on SrLaAl04 substrate which lattice period is only somewhat different from that of grown film. Such incommensurability results in... [Pg.227]

The copper solution in the zinc oxide characterized by the outlined analytical andphysical methods was found to exist only after mild reduction of the calcined catalyst. Before reduction, the solubility of CuO in ZnO is limited to 4-6% 44,45) and after more severe reduction, the optical spectra begin to resemble a superposition of those of pure copper metal and zinc oxide. Hence the black solute phase is metastable and does not appear to be the final product of reduction. For this reason, the dispersed copper species were assigned the valence state +1 Buiko et al. 41) visualized these copper species not as isolated Cu+ ions but rather as electron-deficient copper atoms with strong electronic overlap with the host zinc oxide lattice, particularly with neighboring oxygens whose orbitals dominate in the valence band of zinc oxide. [Pg.261]

Bismuth oxide forms a number of complex mixed-metal phases with the divalent metal oxides of calcium, strontium, barium, lead, and cadmium, and these show a wide variety in composition. With transition metal oxides, mixed-metal oxide phases have been observed which are based upon a Perovskite-type lattice (10) containing layers of Bi202. It is notable that the high Tc superconducting materials which include bismuth also have this Perovskite-type of lattice with layers of copper oxide interleaved with bismuth oxide layers. [Pg.339]

Metal oxide nanocomposites were synthesized by electrical discharge method using a combination of aluminum and copper electrodes submerged into water. The crystal structure, lattice parameters and grain size of the nanopowders were determined by XRD using Cu K radiation (Fig. 3b). The XRD pattern exhibited the presence of cubic copper with a lattice constant of 0.3615 nm, as well as aluminum and copper oxide and hydroxide phases. The positions of all peaks were in agreement with the JCPDS standards. [Pg.335]

The studies of Garner and his co-workers in the years 1928-1939, which had established the existence of two types of carbon monoxide and hydrogen chemisorption on oxides and which identified irreversible chemisorption with incipient reduction, were followed in the immediate postwar period by an intensive study of the properties of copper oxide (12-15). The work was later extended to nickel oxide (16) and cobalt oxide (17,18). With each of these oxides it was established that carbon monoxide was capable of reacting not only with lattice oxygen, but also with adsorbed oxygen. The concept of irreversible chemisorption involving a carbonate ion and ulti-... [Pg.5]

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See also in sourсe #XX -- [ Pg.579 ]



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Copper lattice

Copper oxidized

Lattice oxidation

Oxidants copper

Oxidative coppering

Oxidic copper

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