退火对掠角沉积辅助WO3薄膜电阻开关性能的影响

Shiva Lamichhane, Savita Sharma, M. Tomar, A. Chowdhuri
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引用次数: 0

摘要

本文报道了沉积后退火对射频磁控溅射WO3薄膜电阻开关性能的影响。在65°到80°不同的掠角溅射结构下沉积薄膜。在400℃非原位退火后,WO3薄膜的结构由单斜相转变为正交相。在沉积后退火过程中,电阻开关性能由双极开关转变为单极开关。所有制备的WO3薄膜在非原位退火后均表现出单极开关行为。非原位热处理降低了高阻状态下的电阻值,有趣的是,退火处理后的开关电压也从7 V降低到3 V。在70°GLAD角下制备的WO3薄膜,其高阻态与低阻态的比值达到最大值(≈219)。详细的电荷输运机制表明,在较低的外加电压下,欧姆行为是主导的电流传导机制,而在较高的外加电压下,空间电荷限制电流和Child定律是主导的。所获得的结果鼓励了制备的WO3薄膜在光电子学、微电子学、环境工程以及诸如电阻式存储器件等先进电子领域的广泛应用。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Effect of Annealing on Resistive Switching Properties of Glancing Angle Deposition‐Assisted WO3 Thin Films
Herein, the impact of postdeposition annealing on resistive switching behavior of radio frequency magnetron sputtered WO3 thin films is reported. Films are deposited under glancing angle deposition (GLAD) configuration of sputtering at varying GLAD angle from 65° to 80°. Structure transition from monoclinic to orthorhombic phase in deposited WO3 films is perceived after ex situ annealing at temperature of 400 °C. Resistive switching properties show shift from bipolar to unipolar switching on postdeposition annealing. WO3 films show unipolar switching behavior after ex situ annealing for all prepared samples. The value of resistance in high resistance state is lowered after ex situ heating treatment and interestingly switching voltage also reduces to 3 V from 7 V after annealing treatment. The ratio of high to low resistance state for annealed WO3 film fabricated at 70° GLAD angle is achieved to be maximum (≈219). A detailed charge transport mechanism shows that ohmic behavior is dominant current conduction mechanism at lower applied voltage, while space charge limited current and Child's law are dominant at higher applied voltages. Obtained results encourage utilization of prepared WO3 thin films toward a wide variety of applications in optoelectronics, microelectronics, and environmental engineering along with advanced electronics such as resistive memory devices.
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