Superconductivity in infinite-layer CaCuO2-brownmillerite Ca2Fe2O5 superlattices

Abstract: High-temperature cuprate superconductors have naturally a superlattice structure. Infinite-layer CaCuO2 is the common ingredient of cuprates with superconducting transition temperatures above 100 K. However, infinite-layer CaCuO2 by itself does not superconduct. Here we show that superconductivity emerges in artificial superlattices built from infinite-layer CaCuO2 and brownmillerite Ca2Fe2O5 grown by molecular beam epitaxy. X-ray diffraction and electron microscopy characterizations showed that the crystal qu… Show more

“…1(a). ] Apart from the studies of bulk properties, tetragonal SCO also serves as an essential building block for superlattice engineering to compose "artificial" high-T c compounds [24][25][26][27][28][29]. In this paper, we present the discovery of an emergent metallic state in ultrathin SCO films grown on TiO 2 -terminated SrTiO 3 substrates.…”

Emergent quasi-two-dimensional metallic state derived from the Mott-insulator framework

“…1(a). ] Apart from the studies of bulk properties, tetragonal SCO also serves as an essential building block for superlattice engineering to compose "artificial" high-T c compounds [24][25][26][27][28][29]. In this paper, we present the discovery of an emergent metallic state in ultrathin SCO films grown on TiO 2 -terminated SrTiO 3 substrates.…”

Emergent quasi-two-dimensional metallic state derived from the Mott-insulator framework