HfO 2 -based ferroelectric film has shown great potential for the application of ferroelectric memory due to its great advantages as compared to traditional ferroelectrics. However, the origin of the ferroelectricity of the HfO 2 -based ferroelectric film is still under debate. In this work, by performing ab initial molecular dynamics calculation, the phase stability and the polarization switching behavior of HfO 2 were systematically studied to illuminate the intrinsic origin its ferroelectricity. Results show that, under different inplane constraints and room temperature, the out-of-plane polarized orthorhombic ferroelectric phase Pca2 1 is always the metastable phase of HfO 2 . As driven by the out-of-plane electric field, HfO 2 exhibits linear dielectric behavior or antiferroelectric behavior with the ferroelectric−tetragonal−ferroelectric phase transformation under in-plane compression. With the tensile strain condition, the nonferroelectric HfO 2 could be transformed to be the out-of-plane polarized orthorhombic ferroelectric phase, which shows good ferroelectricity under a periodic electric field. The triggered phase transformation and ferroelectricity as modulated by the epitaxial constraint as found in this work were verified by a recent experiment and should be the intrinsic origin of the ferroelectricity of HfO 2 -based films.
scite is a Brooklyn-based organization that helps researchers better discover and understand research articles through Smart Citations–citations that display the context of the citation and describe whether the article provides supporting or contrasting evidence. scite is used by students and researchers from around the world and is funded in part by the National Science Foundation and the National Institute on Drug Abuse of the National Institutes of Health.