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All‐Nanofiber Self‐Powered Skin‐Interfaced Real‐Time Respiratory Monitoring System for Obstructive Sleep Apnea‐Hypopnea Syndrome Diagnosing

Xiao Peng, Kai Dong, Chuan Ning, Renwei Cheng, Jia Yi, Yihan Zhang, Feifan Sheng, Zhiyi Wu, Zhong Lin Wang

2021Advanced Functional Materials206 citationsDOI

Abstract

Abstract Human respiration is an indispensable physiological behavior of the body, which is an important indicator to evaluate health status, especially for sleep‐related diseases. A real‐time respiratory monitoring and sleep breathing detecting system with convenience, high sensitivity, simple fabrication, and wearing comfort still remains a challenge and urgently desirable. Here, a breathable, highly sensitive, and self‐powered electronic skin (e‐skin) based on a triboelectric nanogenerator (TENG) is reported for real‐time respiratory monitoring and obstructive sleep apnea‐hypopnea syndrome (OSAHS) diagnosis. By using multilayer polyacrylonitrile and “polyamide 66” nanofibers as the contact pairs, and deposited gold as the electrodes, a contact‐separation type of TENG‐based all‐nanofiber e‐skin is developed. The e‐skin has a peak power density of 330 mW m −2 , high pressure sensitivity of 0.217 kPa −1 , excellent working stability, and good air permeability. Therefore, the e‐skin is simultaneously capable of energy autonomy and accurate real‐time subtle respiration monitoring. Meanwhile, a self‐powered diagnostic system for real‐time detection and severity evaluation of obstructive sleep apnea‐hypopnea syndrome are further developed to prevent the occurrence of OSAHS, delay its development, and improve sleep quality. This study hopes to pave a new and practical pathway for real‐time respiration monitoring and sleep breathing diseases clinical detection.

Topics & Concepts

Materials scienceIntermittent hypoxiaObstructive sleep apneaHypopneaRespiratory monitoringTriboelectric effectSleep (system call)MedicineSleep apneaBiomedical engineeringRespiratory systemApneaComputer scienceInternal medicinePolysomnographyComposite materialOperating systemAdvanced Sensor and Energy Harvesting MaterialsTactile and Sensory InteractionsGas Sensing Nanomaterials and Sensors
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