A comparison of the calculated lattice and defect structures of La2CuO4, La2NiO4, Nd2CuO4, Pr2CuO4, Y2CuO4, Al2CuO4: Relationship to high-Tc superconductivity
- 1 February 1989
- journal article
- research article
- Published by Taylor & Francis in Philosophical Magazine Part B
- Vol. 59 (2) , 191-206
- https://doi.org/10.1080/13642818908220171
Abstract
This paper is concerned with the calculated static and dynamic lattice and defect properties of the ternary oxides, M2CuO4 (M = La, Pr, Nd, Y and Al) and La2, NiO4, with the principal aim of trying to understand why it is that apparently only M = La leads to high-temperature superconducting materials. Among the properties considered are the lattice structure, phonon density of states, fundamental defect structure, nature of the electronic disorder, oxidative non-stoichiometry and defect structure associated with alkaline-earth impurities. It is concluded that La2CuO4 has a unique combination of lattice and defect properties, which distinguishes it from the other materials considered, and which may be one of the reasons it exhibits high-Tc , behaviour, and that the only other ternary oxide of the same type that might exhibit similar behaviour is Nd2CuO4.Keywords
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