The interplay between charge, spin, lattice, and orbital degrees of freedom in strongly correlated oxide materials leads to a wide range of emergent phenomena that include ferroelectricity, magnetism, superconductivity, and tunable electrical/optical/catalytic properties. This symposium covers recent advances in the synthesis and characterization of complex oxide thin films, heterostructures, superlattices and vertical nanocomposites, strain/microstructure/property correlation and the emergence of unique properties. Topics of interest include epitaxy of complex oxides, stabilization, heterointerface engineering, emergent interfacial properties, new materials discovery, advanced characterizations, and device applications in energy harvesting, memories, and sensors, among others. Contributions that connect advances in synthesis science to structure and property trends are of particular interest, as are those which link theoretical/computational and experimental efforts. The goal of this symposium is to bring together international and interdisciplinary researchers with an interest in epitaxial thin films to exchange ideas and foster collaboration. The topics listed for this symposium reflect the needs and opportunities of strongly correlated oxide thin films towards the applications in spintronics, quantum information science, microelectronics, and clean energy.

electrical properties electronic structure epitaxy ferroelectricity magnetic properties metal-insulator transition molecular beam epitaxy (MBE) physical vapor deposition (PVD) RHEED surface chemistry