Experimental Investigation on the Sputtering Process for Tantalum Oxynitride Thin Films

Li, Chuan; Hsieh, J.H.; Chuang, Yen

doi:10.3390/photonics8020053

Cited by 3 publications

(2 citation statements)

References 46 publications

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“…Researchers in a previous study experimented with moving oxygen vacancies and oxygen ions in the surface and bulk of the ZnO layer using different oxygen plasma treatment times [50,51]. The conditions under which ZnO was deposited were O 2 of 14 sccm and time longer than 60 s; thus, the oxygen plasma effect could be significant on the TaN surface.…”

Section: Resultsmentioning

confidence: 99%

Resistive Switching and Synaptic Characteristics in ZnO/TaON-Based RRAM for Neuromorphic System

Pyo

Kim

2022

Nanomaterials

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We fabricated an ITO/ZnO/TaON/TaN device as nonvolatile memory (NVM) with resistive switching for complementary metal-oxide-semiconductor (CMOS) compatibility. It is appropriate for the age of big data, which demands high speed and capacity. We produced a TaON layer by depositing a ZnO layer on a TaN layer using an oxygen-reactive radio frequency (RF) sputtering system. The bi-layer formation of ZnO and TaON interferes with the filament rupture after the forming process and then raises the current level slightly. The current levels were divided into high- and low-compliance modes. The retention, endurance, and pulse conductance were verified with a neuromorphic device. This device was stable and less consumed when it was in low mode rather than high mode.

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Section: Resultsmentioning

confidence: 99%

Resistive Switching and Synaptic Characteristics in ZnO/TaON-Based RRAM for Neuromorphic System

Pyo

Kim

2022

Nanomaterials

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“…As a result, Ar + ions move toward the target side, while O 2− ions move toward the substrate side. The oxygen plasma collides with the TaN surface, thus infiltrating into the TaN layer and forming an oxygenrich TaON interfacial layer[29]. Figure1cdepicts an EDS color map with color dots indicating the presence of the detected elements.…”

mentioning

confidence: 99%

Improved Resistive and Synaptic Characteristics in Neuromorphic Systems Achieved Using the Double-Forming Process

Kim,

Ju,

Kang

et al. 2023

Nanomaterials

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In this study, we investigate the electrical properties of ITO/ZrOx/TaN RRAM devices for neuromorphic computing applications. The thickness and material composition of the device are analyzed using transmission electron microscopy. Additionally, the existence of TaON interface layers was confirmed using dispersive X-ray spectroscopy and X-ray photoelectron analysis. The forming process of the ZrOx-based device can be divided into two categories, namely single- and double forming, based on the initial lattice oxygen vacancies. The resistive switching behaviors of the two forming methods are compared in terms of the uniformity properties of endurance and retention. The rationale behind each I–V forming process was determined as follows: in the double-forming method case, an energy band diagram was constructed using F-N tunneling; conversely, in the single-forming method case, the ratio of oxygen vacancies was extracted based on XPS analysis to identify the conditions for filament formation. Subsequently, synaptic simulations for the applications of neuromorphic systems were conducted using a pulse scheme to achieve potentiation and depression with a deep neural network-based pattern recognition system to display the achieved recognition accuracy. Finally, high-order synaptic plasticity (spike-timing-dependent plasticity (STDP)) is emulated based on the Hebbian rule.

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Electronic, Optical, and Epsilon Near-Zero Response in Magnetron-Sputtered Tantalum Oxynitride Thin Films

Khalil,

Bashir,

Ullah

et al. 2024

J. Electron. Mater.

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Experimental Investigation on the Sputtering Process for Tantalum Oxynitride Thin Films

Cited by 3 publications

References 46 publications

Resistive Switching and Synaptic Characteristics in ZnO/TaON-Based RRAM for Neuromorphic System

Resistive Switching and Synaptic Characteristics in ZnO/TaON-Based RRAM for Neuromorphic System

Improved Resistive and Synaptic Characteristics in Neuromorphic Systems Achieved Using the Double-Forming Process

Electronic, Optical, and Epsilon Near-Zero Response in Magnetron-Sputtered Tantalum Oxynitride Thin Films

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