Tuneable resistive switching characteristics of In2O3 nanorods array via Co doping

Adnan Younis; Dewei Chu; Sean Li

doi:10.1039/c3ra41276h

Tuneable resistive switching characteristics of In₂O₃ nanorods array via Co doping

Adnan Younis, Dewei Chu, Sean Li

Research output: Contribution to journal › Article › peer-review

22 Citations (Scopus)

Abstract

In this work, a novel approach to fabricate In₂O₃ nanorod arrays with tunable resistive switching characteristics via Co doping was addressed. The experimental results demonstrated that Co-doped In ₂O₃ nanorod arrays exhibit excellent and stable resistive switching (RS) performances with a high/low resistance ratio of more than 100, endurance performance of more than 8000 cycles, and a data retention time of more than 4000 s. Moreover, the device also shows high uniformity and stability at high temperatures (∼475 K). The superior RS performance of the as-fabricated device could be explained on the basis of a conducting filaments based model.

Original language	English
Pages (from-to)	13422-13428
Number of pages	7
Journal	RSC Advances
Volume	3
Issue number	32
DOIs	https://doi.org/10.1039/c3ra41276h
Publication status	Published - Aug 28 2013
Externally published	Yes

ASJC Scopus subject areas

General Chemistry
General Chemical Engineering

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abstract = "In this work, a novel approach to fabricate In2O3 nanorod arrays with tunable resistive switching characteristics via Co doping was addressed. The experimental results demonstrated that Co-doped In 2O3 nanorod arrays exhibit excellent and stable resistive switching (RS) performances with a high/low resistance ratio of more than 100, endurance performance of more than 8000 cycles, and a data retention time of more than 4000 s. Moreover, the device also shows high uniformity and stability at high temperatures (∼475 K). The superior RS performance of the as-fabricated device could be explained on the basis of a conducting filaments based model.",

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AU - Chu, Dewei

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N2 - In this work, a novel approach to fabricate In2O3 nanorod arrays with tunable resistive switching characteristics via Co doping was addressed. The experimental results demonstrated that Co-doped In 2O3 nanorod arrays exhibit excellent and stable resistive switching (RS) performances with a high/low resistance ratio of more than 100, endurance performance of more than 8000 cycles, and a data retention time of more than 4000 s. Moreover, the device also shows high uniformity and stability at high temperatures (∼475 K). The superior RS performance of the as-fabricated device could be explained on the basis of a conducting filaments based model.

AB - In this work, a novel approach to fabricate In2O3 nanorod arrays with tunable resistive switching characteristics via Co doping was addressed. The experimental results demonstrated that Co-doped In 2O3 nanorod arrays exhibit excellent and stable resistive switching (RS) performances with a high/low resistance ratio of more than 100, endurance performance of more than 8000 cycles, and a data retention time of more than 4000 s. Moreover, the device also shows high uniformity and stability at high temperatures (∼475 K). The superior RS performance of the as-fabricated device could be explained on the basis of a conducting filaments based model.

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Tuneable resistive switching characteristics of In₂O₃ nanorods array via Co doping

Abstract

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