On the Stereochemistry of the Cations in the Doping Block of Superconducting Copper-Oxides
Abstract
Metal-oxygen complexes containing Cu,- Tl-, Hg-, Bi- and Pb-cations are electronically active in superconducting copper-oxides by stabilizing single phases with enhanced Tc, whereas other metal-oxygen complexes deteriorate copper-oxide superconductivity. Cu, Tl, Hg, Bi, Pb in their actual oxidation states are closed shell d10 or inert s2 pair ions. Their electronic configurations have a strong tendency to polarize the oxygen environment. The closed shell d ions with low lying nd10 nd9(n+1)s excitations form linear complexes through dz2-s hybridization polarizing the apical oxygens. Comparatively low nd9(n+1)s excitation energies distinguish Cu1+,3+, Tl3+, Hg2+ from other closed shell d10 ions deteriorating copper-oxide superconductivity, e.g. Zn2+.
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