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Conductive Domain Walls in Non-Oxide Ferroelectrics Sn2P2S6

Authors :
Deng, Jianming
Jiang, Xingan
Liu, Yanyu
Zhao, Wei
Li, Yun
Gao, Ziyan
Lv, Peng
Xu, Sheng
Xia, Tian-Long
Wang, Jinchen
Wu, Meixia
Yao, Zishuo
Wang, Xueyun
Hong, Jiawang
Publication Year :
2020

Abstract

The conductive domain wall (CDW) is extensively investigated in ferroelectrics, which can be considered as a quasi-two-dimensional reconfigurable conducting channel embedded into an insulating material. Therefore, it is highly important for the application of ferroelectric nanoelectronics. Hitherto, most CDW investigations are restricted in oxides, and limited work has been reported in non-oxides to the contrary. Here, by successfully synthesizing the non-oxide ferroelectric Sn2P2S6 single crystal, we observed and confirmed the domain wall conductivity by using different scanning probe techniques which origins from the nature of inclined domain walls. Moreover, the domains separated by CDW also exhibit distinguishable electrical conductivity due to the interfacial polarization charge with opposite signs. The result provides a novel platform for understanding electrical conductivity behavior of the domains and domain walls in non-oxide ferroelectrics.

Details

Database :
arXiv
Publication Type :
Report
Accession number :
edsarx.2003.13927
Document Type :
Working Paper