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An Artificial Universal Tactile Nociceptor Based on 2D Polymer Film Memristor Arrays with Tunable Resistance Switching Behaviors

Shaolin Du, Yaru Song, Jiangyan Yuan, Ruisha Hao, Lingli Wu, Shengbin Lei, Wenping Hu

2024ACS Applied Materials & Interfaces20 citationsDOI

Abstract

Nociceptor is an important receptor in the organism’s sensory system; it can perceive harmful stimuli and send signals to the brain in order to protect the body in time. The injury degree of nociceptor can be divided into three stages: self-healing injury, treatable injury, and permanent injury. However, the current studies on nociceptor simulation are limited to the self-healing stage due to the limitation of the untunable resistance switching behavior of memristors. In this study, we constructed Al/2DP TPAK+TAPB /Ag memristor arrays with adjustable memory behaviors to emulate the nociceptor of biological neural network of all three stages. For this purpose, a PDMS/AgNWs/ITO/PET pressure sensor was assembled to mimic the tactile perception of the skin. The memristor arrays can not only simulate all the response of nociceptor, i.e., the threshold, relaxation, no adaptation, and sensitization with the self-healing injury, but can also simulate the treatable injury and the permanent injury. These behaviors are both demonstrated with a single memristor and in the form of pattern mapping of the memristor array.

Topics & Concepts

MemristorNociceptorMaterials scienceNeuromorphic engineeringSensory systemNanotechnologyNeuroscienceBiomedical engineeringComputer scienceArtificial intelligenceArtificial neural networkMedicineNociceptionElectronic engineeringPsychologyEngineeringReceptorInternal medicineAdvanced Memory and Neural ComputingAdvanced Sensor and Energy Harvesting MaterialsNeuroscience and Neural Engineering