Enhanced resistive switching phenomena using low-positive-voltage format and self-compliance IrO x /GdO x /W cross-point memories

Author:

Jana Debanjan,Maikap Siddheswar,Prakash Amit,Chen Yi-Yan,Chiu Hsien-Chin,Yang Jer-Ren

Abstract

Abstract Enhanced resistive switching phenomena of IrO x /GdO x /W cross-point memory devices have been observed as compared to the via-hole devices. The as-deposited Gd2O3 films with a thickness of approximately 15 nm show polycrystalline that is observed using high-resolution transmission electron microscope. Via-hole memory device shows bipolar resistive switching phenomena with a large formation voltage of -6.4 V and high operation current of >1 mA, while the cross-point memory device shows also bipolar resistive switching with low-voltage format of +2 V and self-compliance operation current of <300 μA. Switching mechanism is based on the formation and rupture of conducting filament at the IrO x /GdO x interface, owing to oxygen ion migration. The oxygen-rich GdO x layer formation at the IrO x /GdO x interface will also help control the resistive switching characteristics. This cross-point memory device has also Repeatable 100 DC switching cycles, narrow distribution of LRS/HRS, excellent pulse endurance of >10,000 in every cycle, and good data retention of >104 s. This memory device has great potential for future nanoscale high-density non-volatile memory applications.

Publisher

Springer Science and Business Media LLC

Subject

Condensed Matter Physics,General Materials Science

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