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Crystal structures, of oxides

Figure 4.8-21 Crystal structure of oxidic superconductors YBa2Cu307 (a) and Bi2CaiSr2Cu208 (b). Figure 4.8-21 Crystal structure of oxidic superconductors YBa2Cu307 (a) and Bi2CaiSr2Cu208 (b).
Czjzek, M., Dos Santos, J.-P, Pommier, J., Giordano, G., MEJean, V., and Haser, R., 1998, Crystal structure of oxidized trimethylamine-N-oxide reductase from Shewanella massilia at 2.5 resolution, J. Mol. Biol. 284 43511447. [Pg.480]

Figure 4 X-ray crystal structure of oxidized copper-containing nitrite reductase from Alcaligenes faecalis at 2.0 A resolution. Coordinates are from PDB entry 1AS7 ... Figure 4 X-ray crystal structure of oxidized copper-containing nitrite reductase from Alcaligenes faecalis at 2.0 A resolution. Coordinates are from PDB entry 1AS7 ...
Fig. 8.3 Perovskite crystal structure of oxide ceramic materials used to fabricate composite membranes. A very large fraction of the metals in the periodic table can be substituted into the A and B lattice sites. A-sites contain larger cations such as alkaline earth and rare earths, including Ca, Sr and La, whereas the B-sites contain smaller transition metal cations such as H, Nb, V, Fe, Cr, Cu and Co. A near infinite variety of materials can be synthesized... Fig. 8.3 Perovskite crystal structure of oxide ceramic materials used to fabricate composite membranes. A very large fraction of the metals in the periodic table can be substituted into the A and B lattice sites. A-sites contain larger cations such as alkaline earth and rare earths, including Ca, Sr and La, whereas the B-sites contain smaller transition metal cations such as H, Nb, V, Fe, Cr, Cu and Co. A near infinite variety of materials can be synthesized...
More detailed treatments on crystal structures of oxides are found in general texts on solid state chemistry (e.g. Smart and Moore (1992) or West (1984)) and in more specialised literature, such as Naray-Szabd (1969) and Rao and Raveau (1995). [Pg.21]

Figure 1 The optimized structure of Cu(imidazole)3(SCH3)(S(CH3)2) compared to the crystal structure of oxidized plastocyaiiin (shaded) ... Figure 1 The optimized structure of Cu(imidazole)3(SCH3)(S(CH3)2) compared to the crystal structure of oxidized plastocyaiiin (shaded) ...
Figure 15.2 Most common bulk crystal structures of oxides (oxygen ions, light spheres metal ions, dark spheres) (a) rock salt, (b) fluorite, (c) perovskite, (d) inverse spinei,... Figure 15.2 Most common bulk crystal structures of oxides (oxygen ions, light spheres metal ions, dark spheres) (a) rock salt, (b) fluorite, (c) perovskite, (d) inverse spinei,...
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See also in sourсe #XX -- [ Pg.389 ]



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Crystal Structures of Halides, Oxides, Chalcogenides, Pnictides

Oxide crystal structure

Oxide crystals

Oxides, structure

Structure of oxides

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