Posttreatment Effects on the Crystal Structure and Superconductivity of Ca-Free Double-Layered Cuprate Sr2SrCu2O4+yF2-y
Abstract
We report the effects of low-temperature postannealing on the structural and superconducting properties of the recently discovered Ca-free double-layered cuprate, Sr2SrCu2O4+yF2-y. Although the as-synthesized sample prepared under high pressure has a tetragonal structure with a rock-salt-type blocking layer (the so-called T-phase), we found that the symmetry of the structure lowered to that of an orthorhombic system when annealed with CuF2. The structural refinements reveal that such a topochemical reaction leads not only to the removal of excess O2- from the apical site but also to the intercalation of extra F- into the interstitial site. The orthorhombic phase exhibits bulk superconductivity at a critical temperature of 107 K, which is significantly higher than that of the T-phase (50 K). Meanwhile, the T-phase turns into another structure possessing a fluorite-type blocking layer without apical fluorine (known as the T-phase) by annealing without CuF2. Density functional theory calculations show that the T-phase is more stable than the T-phase. This is the first report on the formation of a T-type double-layered cuprate. Furthermore, the structural stability of the three phases of Sr2SrCu2O4+yF2-y is discussed in terms of lattice matching between the blocking and conducting layers.
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