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An Artificial LiSiO<sub><i>x</i></sub> Nociceptor with Neural Blockade and Self-Protection Abilities

Zewen Li, Xin Lin, Junqing Wei, Xin Shan, Zeyu Wu, Yu Luo, Yuchan Wang, Yulin Feng, Tian‐Ling Ren, Zhitang Song, Fang Wang, Kailiang Zhang

2024ACS Applied Materials & Interfaces21 citationsDOI

Abstract

An artificial nociceptor, as a critical and special bionic receptor, plays a key role in a bioelectronic device that detects stimuli and provides warnings. However, fully exploiting bioelectronic applications remains a major challenge due to the lack of the methods of implementing basic nociceptor functions and nociceptive blockade in a single device. In this work, we developed a Pt/LiSiO x /TiN artificial nociceptor. It had excellent stability under the 10 4 endurance test with pulse stimuli and exhibited a significant threshold current of 1 mA with 1 V pulse stimuli. Other functions such as relaxation, inadaptation, and sensitization were all realized in a single device. Also, the pain blockade function was first achieved in this nociceptor with over a 25% blocking degree, suggesting a self-protection function. More importantly, an obvious depression was activated by a stimulus over 1.6 V due to the cooperative effects of both lithium ions and oxygen ions in LiSiO x and the dramatic accumulation of Joule heat. The conducting channel ruptured partially under sequential potentiation, thus achieving nociceptive blockade, besides basic functions in one single nociceptor, which was rarely reported. These results provided important guidelines for constructing high-performance memristor-based artificial nociceptors and opened up an alternative approach to the realization of bioelectronic systems for artificial intelligence.

Topics & Concepts

NociceptorBlockadeNeuroscienceMaterials scienceKey (lock)NociceptionNanotechnologyComputer scienceReceptorMedicineBiologyComputer securityInternal medicineAdvanced Memory and Neural ComputingNeuroscience and Neural EngineeringEEG and Brain-Computer Interfaces
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