首页 /研究 /Stretchable and neuromorphic transistors for pain perception and sensitization emulation
PERCEPTION

Stretchable and neuromorphic transistors for pain perception and sensitization emulation

Yutong Xu, Dapeng Liu, Shilei Dai, Junyao Zhang, Ziyi Guo, Xu Liu, Lize Xiong, Jia Huang

发表年份
2023
引用次数
28
访问权限
开放获取

摘要

Pain perception nociceptors (PPN), an important type of sensory neuron, are capable of sending out alarm signals when the human body is exposed to destructive stimuli. Simulating the human ability to perceive the external environment and spontaneously avoid injury is a critical function of neural sensing of artificial intelligence devices. The demand for developing artificial PPN has subsequently increased. However, due to the application scenarios of bionic electronic devices such as human skin, electronic prostheses, and robot bodies, where a certain degree of surface deformation constantly occurs, the ideal artificial PPN should have the stretchability to adapt to real scenarios. Here, an organic semiconductor nanofiber artificial pain perception nociceptor (NAPPN) based on a pre-stretching strategy is demonstrated to achieve key pain aspects such as threshold, sensitization, and desensitization. Remarkably, while stretching up to 50%, the synaptic behaviors and injury warning ability of NAPPN can be retained. To verify the wearability of the device, NAPPN was attached to a curved human finger joint, on which PPN behaviors were successfully mimicked. This provides a promising strategy for realizing neural sensing function on either deformed or mobile electronic devices.

关键词

EmulationNeuromorphic engineeringNociceptorSensitizationMaterials sciencePerceptionTransistorNanotechnologyNeuroscienceMedicine

相关论文

查看 PERCEPTION 分类全部论文