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A Biomimetic Nociceptor Based on a Vertical Multigate, Multichannel Neuromorphic Transistor

Nociceptors, crucial sensory receptors within biological systems, are essential for survival in diverse and potentially hazardous environments. Efforts to replicate nociceptors through advanced electronic devices, such as memristors and neuromorphic transistors, have achieved limited success, captur...

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Published in:	ACS nano 2024-11, Vol.18 (44), p.30668-30680
Main Authors:	Xu, Han, Shang, Da-Shan, Tang, Jianshi, Luo, Qing, Xu, Xiaoxin, Liang, Renrong, Pan, Liyang, Gao, Bin, Wang, Qi, He, Deyan, Liu, Qi, Liu, Ming, Qian, He, Wu, Huaqiang
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Language:	English
Subjects:	Biomimetic Materials - chemistry Biomimetics - instrumentation Humans Nociceptors - metabolism Nociceptors - physiology Transistors, Electronic
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creator	Xu, Han Shang, Da-Shan Tang, Jianshi Luo, Qing Xu, Xiaoxin Liang, Renrong Pan, Liyang Gao, Bin Wang, Qi He, Deyan Liu, Qi Liu, Ming Qian, He Wu, Huaqiang
description	Nociceptors, crucial sensory receptors within biological systems, are essential for survival in diverse and potentially hazardous environments. Efforts to replicate nociceptors through advanced electronic devices, such as memristors and neuromorphic transistors, have achieved limited success, capturing basic nociceptive functions while more advanced characteristics like various forms of central sensitization and analgesic effect remain out of reach. Here, we introduce a vertical multigate, multichannel electrolyte-gated transistor (Vm-EGT), designed to mimic nociceptors. Utilizing the hybrid mechanism combining electric-double-layer (EDL) with ion intercalation/deintercalation in EGTs, our approach successfully replicates peripheral sensitization and desensitization characteristics of nociceptors. The intricate multigate and multichannel design of the Vm-EGT enables the emulation of more advanced nociceptive functionalities, including central sensitization and analgesic effect. Furthermore, we demonstrate that by exploiting the inherent current–voltage relationship, the Vm-EGT can simulate these advanced nociceptive features and seamlessly transition between them. Integrating a Vm-EGT with a thermistor and a heating plate, we have developed an artificial thermal nociceptor that closely mirrors the sensory attributes of its biological counterpart. Our approach significantly advances the emulation of nociceptors, providing a basis for the development of sophisticated artificial sensory systems and intelligent robotics.
doi_str_mv	10.1021/acsnano.4c09632
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Furthermore, we demonstrate that by exploiting the inherent current–voltage relationship, the Vm-EGT can simulate these advanced nociceptive features and seamlessly transition between them. Integrating a Vm-EGT with a thermistor and a heating plate, we have developed an artificial thermal nociceptor that closely mirrors the sensory attributes of its biological counterpart. 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source	American Chemical Society:Jisc Collections:American Chemical Society Read & Publish Agreement 2022-2024 (Reading list)
subjects	Biomimetic Materials - chemistry Biomimetics - instrumentation Humans Nociceptors - metabolism Nociceptors - physiology Transistors, Electronic
title	A Biomimetic Nociceptor Based on a Vertical Multigate, Multichannel Neuromorphic Transistor
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