Excellent Bipolar Resistive Switching Characteristics of Bi4Ti3O12 Thin Films Prepared via Sol-Gel Process

Herein, Bi4Ti3O12 (BIT) ferroelectric thin films were fabricated into Au/BIT/LaNiO3/Si structures to demonstrate their memristor properties. Repeatable and stable bipolar resistive switching (RS) characteristics of the device are first reported in this work. The switching ratio of the device anneale...

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Published inNanomaterials (Basel, Switzerland) Vol. 11; no. 10; p. 2705
Main Authors Zhou, He-Chun, Jiang, Yan-Ping, Tang, Xin-Gui, Liu, Qiu-Xiang, Li, Wen-Hua, Tang, Zhen-Hua
Format Journal Article
LanguageEnglish
Published Basel MDPI AG 14.10.2021
MDPI
Subjects
Acids
Annealing
Bi4Ti3O12
Bismuth titanate
Conduction
conductive filaments
Ferroelectric materials
Ferroelectricity
Filaments
Information storage
Memory devices
Memristors
Metal fatigue
Nitrates
Oxygen
oxygen vacancies
Random access memory
resistive switching
Sol-gel processes
Solvents
Space charge
Switching
thin film
Thin films
Vacancies
X ray photoelectron spectroscopy
United States > US
China
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Summary:Herein, Bi4Ti3O12 (BIT) ferroelectric thin films were fabricated into Au/BIT/LaNiO3/Si structures to demonstrate their memristor properties. Repeatable and stable bipolar resistive switching (RS) characteristics of the device are first reported in this work. The switching ratio of the device annealed in air reached approximately 102 at 0.1 and −0.1 V. The RS performance was not significantly degraded after 100 consecutive cycles of testing. We also explored the factors affecting the RS behavior of the device. By investigating the RS characteristics of the devices annealed in O2, and in combination with XPS analysis, we found that the RS properties were closely related to the presence of oxygen vacancies. The devices annealed in air exhibited a markedly improved RS effect over those annealed in O2. According to the slope fitting, the conduction mechanism of the device was the ohmic conduction and space charge limited current (SCLC). This study is the first to successfully apply BIT ferroelectric films to the RS layers of memristors. Additionally, a theory of conductive filaments is proposed to adequately explain the relationship between RS behavior and oxygen vacancies, providing meaningful inspiration for designing high-quality resistive random access memory devices.
Bibliography:ObjectType-Article-1
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ISSN:2079-4991
2079-4991
DOI:10.3390/nano11102705