| Literature DB >> 31248259 |
Yang Bao1, Peng Song1, Yanpeng Liu1, Zhihui Chen1, Menglong Zhu1, Ibrahim Abdelwahab1, Jie Su1, Wei Fu1, Xiao Chi1, Wei Yu1, Wei Liu1, Xiaoxu Zhao1, Qing-Hua Xu1, Ming Yang2, Kian Ping Loh1.
Abstract
Ultrathin ferroelectrics hold great promise for modern miniaturized sensors, memories, and optoelectronic devices. However, in most ferroelectric materials, polarization is destabilized in ultrathin films by the intrinsic depolarization field. Here we report robust in-plane ferroelectricity in few-layer tin sulfide (SnS) 2D crystals that is coupled anisotropically to lattice strain. Specifically, the intrinsic polarization of SnS manifests as nanoripples along the armchair direction due to a converse piezoelectric effect. Most interestingly, such nanoripples show an odd-and-even effect in terms of its layer dependence, indicating that it is highly sensitive to changes in inversion symmetry. Ferroelectric switching is demonstrated in field-effect transistor devices fabricated on ultrathin SnS films, in which a stronger ferroelectric response is achieved at negative gate voltages. Our work shows the promise of 2D SnS in ultrathin ferroelectric field-effect transistors as well as nanoscale electromechanical systems.Entities:
Keywords: 2D materials; SnS; field-effect transistors; in-plane ferroelectricity; resistive switching; second-harmonic generation
Year: 2019 PMID: 31248259 DOI: 10.1021/acs.nanolett.9b01419
Source DB: PubMed Journal: Nano Lett ISSN: 1530-6984 Impact factor: 11.189