Recent progress on flexible inorganic single-crystalline functional oxide films for advanced electronics
Article type:Review Article
DOI:10.1039/C8MH01598H
Citation:Mater. Horiz., 2019, Accepted Manuscript
AbstractThe broad spectrum of physical properties in functional oxide materials has attracted intensive research in recent years. In particular, freestanding thin films of single-crystalline functional oxides, as flexible and isolated forms of two-dimensional (2D) geometries, are expected to be great potential in integration with flexible and semiconductor devices. Here, we review the progress made in recent years in fabrication of freestanding single-crystalline functional oxide films via chemical release methods and exfoliation method. These freestanding films are mechanically flexible and thus allow investigating the intrinsic effect of mechanical strain. Through engineering bending procedure tuning the physical properties of these flexible oxide films has been realized. The currently made progress in studying the freestanding oxide films is expected to stimulate extensive research, from fundamental physics of two-dimensional materials to applications in advanced electronics.