Yuyang Fu scite author profile

With rapid advancement and deep integration of artificial intelligence and the internet-of-things, artificial intelligence of things has emerged as a promising technology changing people’s daily life. Massive growth of data generated from the devices challenges the AIoT systems from information collection, storage, processing and communication. In the review, we introduce volatile threshold switching memristors, which can be roughly classified into three types: metallic conductive filament-based TS devices, amorphous chalcogenide-based ovonic threshold switching devices, and metal-insulator transition based TS devices. They play important roles in high-density storage, energy efficient computing and hardware security for AIoT systems. Firstly, a brief introduction is exhibited to describe the categories (materials and characteristics) of volatile TS devices. And then, switching mechanisms of the three types of TS devices are discussed and systematically summarized. After that, attention is focused on the applications in 3D cross-point memory technology with high storage-density, efficient neuromorphic computing, hardware security (true random number generators and physical unclonable functions), and others (steep subthreshold slope transistor, logic devices, etc.). Finally, the major challenges and future outlook of volatile threshold switching memristors are presented.

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The Co-Improvement of Selectivity and Uniformity on NbOₓ-Based Selector by Al-Doping

Chen

et al. 2022

IEEE Electron Device Lett.

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A 2.22 Mb/s True Random Number Generator Based on a GeTe_x Ovonic Threshold Switching Memristor

Wen

Wang

et al. 2023

IEEE Electron Device Lett.

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Improve the Robustness of Diffusive Memristor based True Random Number Generator via Voltage-to-Time Transformation

Wan

et al. 2022

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Realization of Outstanding Stable 1S1R Behavior Based on Al-Doped NbO_x

Yang¹,

Chen²,

Liu

et al. 2023

IEEE Trans. Electron Devices

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Yuyang Fu

Volatile threshold switching memristor: An emerging enabler in the AIoT era

The Co-Improvement of Selectivity and Uniformity on NbOₓ-Based Selector by Al-Doping

A 2.22 Mb/s True Random Number Generator Based on a GeTe_x Ovonic Threshold Switching Memristor

Improve the Robustness of Diffusive Memristor based True Random Number Generator via Voltage-to-Time Transformation

Realization of Outstanding Stable 1S1R Behavior Based on Al-Doped NbO_x

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About

Yuyang Fu

Volatile threshold switching memristor: An emerging enabler in the AIoT era

The Co-Improvement of Selectivity and Uniformity on NbOₓ-Based Selector by Al-Doping

A 2.22 Mb/s True Random Number Generator Based on a GeTex Ovonic Threshold Switching Memristor

Improve the Robustness of Diffusive Memristor based True Random Number Generator via Voltage-to-Time Transformation

Realization of Outstanding Stable 1S1R Behavior Based on Al-Doped NbOx

Contact Info

Product

Resources

About

A 2.22 Mb/s True Random Number Generator Based on a GeTe_x Ovonic Threshold Switching Memristor

Realization of Outstanding Stable 1S1R Behavior Based on Al-Doped NbO_x