Superconductivity in three-layer Na0.3CoO2*1.3H2O

M.L. Foo; T. Klimczuk; Lu Li; N.P. Ong; and R.J. Cava

arXiv:cond-mat/0406409·cond-mat.supr-con·November 10, 2009

Superconductivity in three-layer Na0.3CoO2*1.3H2O

M.L. Foo, T. Klimczuk, Lu Li, N.P. Ong, and R.J. Cava

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TL;DR

This paper reports the discovery of a new three-layer Na0.3CoO2*1.3H2O superconductor with a transition temperature of 4.3 K, featuring a novel layered structure distinct from previously known two-layer variants.

Contribution

It introduces a new three-layer crystalline form of Na0.3CoO2*1.3H2O with unique structural features not seen in similar copper oxide superconductors.

Findings

01

Superconductivity observed at 4.3 K.

02

Distinct three-layer CoO6 octahedral structure.

03

Structural differences from two-layer phase.

Abstract

The observation of superconductivity at 4.3 K in a new crystalline form of Na0.3CoO2*1.3H2O is reported. The new superconductor has three layers of CoO6 octahedra per crystallographic unit cell, in contrast to the previously reported two-layer superconductor. The three-layer cell occurs because the relative orientations of neighboring CoO2 layers are distinctly different from what is seen in the two-layer superconducting phase. This type of structural difference in materials that are otherwise chemically and structurally identical is not possible to attain on the layered copper oxide superconductors. The synthesis and stability of the new phase are described.

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