Yuan Qin scite author profile

Artificial neuronal devices are critical building blocks of neuromorphic computing systems and currently the subject of intense research motivated by application needs from new computing technology and more realistic brain emulation. Researchers have proposed a range of device concepts that can mimic neuronal dynamics and functions. Although the switching physics and device structures of these artificial neurons are largely different, their behaviors can be described by several neuron models in a more unified manner. In this paper, the reports of artificial neuronal devices based on emerging volatile switching materials are reviewed from the perspective of the demonstrated neuron models, with a focus on the neuronal functions implemented in these devices and the exploitation of these functions for computational and sensing applications. Furthermore, the neuroscience inspirations and engineering methods to enrich the neuronal dynamics that remain to be implemented in artificial neuronal devices and networks toward realizing the full functionalities of biological neurons are discussed.

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Investigation of Deep Defects and Their Effects on the Properties of NiO/Β- Ga2O3 Heterojuncion Diodes

Almalki

Labed

Sengouga

et al. 2022

SSRN Journal

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Yuan Qin

Artificial Neuronal Devices Based on Emerging Materials: Neuronal Dynamics and Applications

Investigation of Deep Defects and Their Effects on the Properties of NiO/Β- Ga2O3 Heterojuncion Diodes

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Yuan Qin

Artificial Neuronal Devices Based on Emerging Materials: Neuronal Dynamics and Applications

Investigation of Deep Defects and Their Effects on the Properties of NiO/Β-&nbsp;Ga2O3&nbsp;Heterojuncion Diodes

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Investigation of Deep Defects and Their Effects on the Properties of NiO/Β- Ga2O3 Heterojuncion Diodes