| Literature DB >> 32551489 |
Xueli Xu1,2,3, Hui Zhang4,5, Zhicheng Zhong6, Ranran Zhang1, Lihua Yin7, Yuping Sun7, Haoliang Huang8, Yalin Lu8, Yi Lu9, Chun Zhou1, Zongwei Ma1, Lei Shen1,2, Junsong Wang1, Jiandong Guo4, Jirong Sun4, Zhigao Sheng1,3.
Abstract
Rectifying semiconductor junctions are crucial to electronic devices. They convert alternating current into a direct one by allowing unidirectional charge flows. Analogous to the current-flow rectification for itinerary electrons, here, a polar rectification that is based on the localized oxygen vacancies (OVs) in a Ti/fatigued-SrTiO3 (fSTO) Schottky junction is first demonstrated. The fSTO with OVs is produced by an electrodegradation process. The different movabilities of localized OVs and itinerary electrons in the fSTO yield a unidirectional electric polarization at the interface of the junction under the coaction of external and built-in electric fields. Moreover, the fSTO displays a pre-ferroelectric state located between paraelectric and ferroelectric phases. The pre-ferroelectric state has three sub-states and can be easily driven into a ferroelectric state by an external electric field. These observations open up opportunities for potential polar devices and may underpin many useful polar-triggered electronic phenomena.Entities:
Keywords: Schottky junction; SrTiO3; heterojunctions; polar rectification; pre-ferroelectric state
Year: 2020 PMID: 32551489 DOI: 10.1021/acsami.0c08418
Source DB: PubMed Journal: ACS Appl Mater Interfaces ISSN: 1944-8244 Impact factor: 9.229