Miscibility gap in electrochemically oxygenated ${La}_{2}$ ${CuO}_{4 + δ}$

1 March 1994

journal article
research article
Published by American Physical Society (APS) in Physical Review B

Vol. 49 (9), 6239-6245
https://doi.org/10.1103/physrevb.49.6239

Abstract

The miscibility gap of

{La}_{2}

{CuO}_{4 + δ}

was investigated by studying three electrochemically oxygenated samples with different oxygen contents, using variable-temperature neutron powder diffraction. The low-temperature lattice parameters of the two coexisting orthorhombic phases (antiferromagnetic, Bmab and superconducting, Fmmm) were found to be in good agreement with those determined for high-pressure annealed samples, indicating that the two techniques yield essentially identical samples, at least in this concentration range. A sample with δ≊0.032 remained phase separated up to 415 K and, above this temperature, was found to be single-phase tetragonal (F4/mmm). The phase separation temperature and the orthorhombic-to-tetragonal phase transition temperature were obtained for all samples, allowing the shape of the miscibility gap to be determined.

Keywords

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Cited by 117 articles

Miscibility gap in electrochemically oxygenatedLa2CuO4+δ

Abstract

Keywords

Miscibility gap in electrochemically oxygenated ${La}_{2}$ ${CuO}_{4 + δ}$