Binary Oxide Superlattices: Versatile Tunability of the Metal Insulator Transition in (TiO2)m/(VO2)m Superlattices (Adv. Funct. Mater. 51/2020).

Keywords: binary oxide superlattices; metal insulator transitions; pulsed laser deposition; strongly correlated oxides; X-ray spectroscopy EN binary oxide superlattices metal insulator transitions pulsed laser deposition strongly correlated oxides X-ray spectroscopy 1 1 1 12/17/20 20201215 NES 201215 The fabrication of binary oxide superlattices is undertaken as a general approach for exploring novel concepts and phenomena in reduced dimensionality systems of strongly correlated oxides. In article number 2004914, Gyula Eres, Milan Radovic, Thorsten Schmitt, and co-workers achieve a wide range of tunability of the metal insulator transition in VO SB 2 sb while reducing oxygen vacancy formation that is detrimental to electrical properties. Binary oxide superlattices, metal insulator transitions, pulsed laser deposition, strongly correlated oxides, X-ray spectroscopy. [Extracted from the article]