Discontinuity of the Corner-shared Octahedral Network at the Interface of BiFeO₃/SrTiO₃

Controlling the interface of complex oxide heterostructures at atomic level has led to novel properties and functionalities. Bulk properties of the film and the interaction between the substrate and the film strongly rely on the exact interface configurations. Here, using reactive molecular beam epitaxy, we investigate the complex atomic configurations at the interface of BiFeO₃/(001)SrTiO₃. We observe an intriguing rock-salt like BiO₂ double layer at the interface grown on TiO₂-terminated SrTiO₃ substrate. The existence of double-layer structure results in a discontinuity of the corner-shared octahedral network at the interface, which debilitates the interaction between the film and substrate. For the BiFeO₃ film grown on SrO-terminated SrTiO₃ substrate, however, no such rock-salt like double layer is observed. The underlying mechanism for the formation of distinct types of interface configurations is explained by first-principles calculations. Our work demonstrates that the oxygen octahedral coupling crossing the interface can be engineered by controlling the exact termination of the substrates.