Complementary resistive switching in tantalum oxide-based resistive memory devices
Yuchao YangPatrick SheridanWei Lu
Abstract
Complementary resistive switches (CRS) are considered as a potential solution for the sneak path problem in large-scale integration of passive crossbar resistive memory arrays. A typical CRS is composed of two bipolar memory cells that are connected anti-serially. Here, we report a tantalum-oxide based resistive memory that achieves the complementary switching functionality within a single memory cell. The complementary switching effect is accompanied by switching polarity reversal in different voltage bias regimes. These effects were explained by the redistribution of oxygen vacancies inside the tantalum-oxide layers. The effects of symmetry breaking on bipolar switching and complementary switching were also discussed.
Metrics
Citation History
Topics
Related Documents
Complementary Resistive Switching in Niobium Oxide-Based Resistive Memory Devices
Xinjun LiuSharif SadafSangsu ParkSeonghyun KimEuijun ChaDaeseok LeeGun Young JungHyunsang Hwang
CMOS compatibility and excellent resistive switching of tantalum oxide-based resistive switching memory
Liping FuG.W. PanRui HaoXiaolong FanYingtao Li
Bipolar resistive switching characteristics in tantalum nitride-based resistive random access memory devices
Myung Ju KimDong Su JeonJu Hyun ParkTae Geun Kim
Multiple Resistive Switching Mechanisms in Graphene Oxide-Based Resistive Memory Devices
S. KoveshnikovO. V. KononenkoO. A. SoltanovichOlesya O. KapitanovaM. A. KnyazevV. VolkovE. B. Yakimov