Quasi-two-dimensional ferroelectricity with multiple switchable polarization states in N-H coinjected perovskite manganites.
Xian-Kui Wei, Feng Liu, Yi Wang, Zhiyao Liang, Pengpeng Liu, Ying Zhou, Lei Cao, Pengfei Cao, Yi Li, Slawomir Prucnal, Oleg Petracic, Yinguo Xiao, Penghan Lu, Ivan Lazić, Shuai Dong
Abstract
Open AccessTopotactic transformation such as hydrogenation serves as a powerful approach to engineering material functionality. However, challenged by direct imaging of light elements and clarifying their role, dual ion-based topotactic tranformation has been poorly explored so far. Here, we report on NH3 plasma-induced ferrodistortive phase transition in NxHy(La,Sr)MnO3-δ films (0 < x < 0.2, 0.5 < y < 1.0, and δ ≈ 0.125, 0.25, and 0.5), where the injected H and N are resolved to enhance the polar order along with antisite defects by atomic-resolution electron microscopy. Besides unveiling the mediation of structural modulation and N-H competition by oxygen-vacancy ordering degree, our piezoresponse force microscopy unravels a unique quasi-two-dimensional (q2D) ferroelectricity in fourfold modulated brownmillerite phase (δ ≈ 0.25), which offers a series of switchable polarization states by an applied electric field. Unlike all-known ferroelectrics, the q2D ferroelectrics establishes a promising material platform for design of future electronic devices such as multistate information storage.