| Literature DB >> 27523723 |
Zengxing Lu1,2, Zhen Fan1, Peilian Li1, Hua Fan1, Guo Tian1, Xiao Song1, Zhongwen Li1, Lina Zhao1, Kangrong Huang1, Fengyuan Zhang1, Zhang Zhang1, Min Zeng1, Xingsen Gao1, Jiajun Feng2, Jianguo Wan2, Junming Liu1,2.
Abstract
Ferroelectric resistive switching (RS), manifested as a switchable ferroelectric diode effect, was observed in well-ordered and high-density nanocapacitor arrays based on continuous BiFeO3 (BFO) ultrathin films and isolated Pt nanonelectrodes. The thickness of BFO films and the lateral dimension of Pt electrodes were aggressively scaled down to <10 nm and ∼60 nm, respectively, representing an ultrahigh ferroelectric memory density of ∼100 Gbit/inch(2). Moreover, the RS behavior in those nanocapacitors showed a large ON/OFF ratio (above 10(3)) and a long retention time of over 6,000 s. Our results not only demonstrate for the first time that the switchable ferroelectric diode effect could be realized in BFO films down to <10 nm in thickness, but also suggest the great potentials of those nanocapacitors for applications in high-density data storage.Entities:
Keywords: BiFeO3; Schottky emission; high-density memory; nanocapacitor array; resistive switching; ultrathin film
Year: 2016 PMID: 27523723 DOI: 10.1021/acsami.6b07792
Source DB: PubMed Journal: ACS Appl Mater Interfaces ISSN: 1944-8244 Impact factor: 9.229