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Electrochemical oxidation of lanthanum cuprates: Superconductivity versus thermal treatment in La2CuO4+δ

✍ Scribed by N. Casañ-Pastor; P. Gomez-Romero; A. Fuertes; J.M. Navarro; M.J. Sanchis; S. Ondoño

Publisher
Elsevier Science
Year
1993
Tongue
English
Weight
769 KB
Volume
216
Category
Article
ISSN
0921-4534

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✦ Synopsis

Room-temperature electrochemical oxidation of La2CuO4 at the limiting value of 0.15 electrons per formula unit yields bulk superconducting materials with Tc values that depend on the applied potentials and the drying temperature. Superconducting fractions and structural parameters are also strongly dependent on moderate thermal treatments following the synthesis. We propose a reorganization of the charge carriers with temperature, involving charge transfer between Cu and intercalated oxygen atoms, to explain the analytical data obtained for various samples with different thermal treatments. Other cuprates also show the ability to intercalate oxygen. Thus, electrochemical oxidation of Laz_ xSrxCaCu206-a yields the oxygen stoichiometric phase that, although not superconducting, presents magnetic properties different from its precursor without a notable change in its structure.

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