Floating zone growth at high oxygen pressures in Ruddlesden-Popper bilayer nickelate YySr3-yNi2-xAlxO7-δ

Abstract

With the discovery of superconductivity under pressure in the Ruddlesden-Popper (RP) bilayer La3Ni2.5+2O7 and trilayer La4Ni2.66+3O10, a new field of nickelate superconductors opened up. In this respect, Sr-Ni-O RP-type phases represent alternative systems that exist with partial cation substitution. We demonstrate that by Y-doping in Sr3Ni2-xAlxO7 (SNAO), as YySr3-yNi2-xAlxO7 (YSNAO), the drawback of an insulating ground state is overcome, and a significant decrease in resistivity is achieved with crystals exhibiting semiconducting behavior. We employ optical floating zone (OFZ) growth at 10 bar oxygen partial pressure to explore the phase formation in a narrow region of Y-Sr-Ni-Al-O and investigate via DFT the general stability of the pure Sr-Ni-O scenario. Using extensive diffraction and spectroscopy, as well as transport and magnetization measurements, the structural, chemical, electrical, and magnetic properties of the as-grown and reduced compounds were investigated. The optimal growth of YSNAO allows for large high quality crystals suitable for neutron studies. In the Al-free growth, a known n=1 RP system with Sr1.66Y0.33NiO4-δ, from which the first single crystals were obtained, was further confirmed, opening the door for future exploration of A-site substituted RP-type phases without Ni-site disorder.

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