A Continuous Pressure Positioning Sensor with Flexible Multilayer Structures Based on a Combinatorial Bionic Strategy

A high‐performance flexible pressure sensor is one of the most important components of electronic skin, which can endow artificial devices with human‐like capabilities. However, the electronic skin usually relies on the arrays of sensors to simultaneously obtain both pressure magnitude and position,...

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Veröffentlicht in:	Advanced functional materials 2024-04, Vol.34 (17)
Hauptverfasser:	Meng, Xiancun, Zhang, Changchao, Xie, Haoran, Niu, Shichao, Han, Zhiwu, Ren, Luquan
Format:	Artikel
Sprache:	eng
Schlagworte:	Bionics Combinatorial analysis Condition monitoring Data processing Lunar roving vehicles Multilayers Position measurement Pressure sensors Road conditions Sensor arrays Sensors Synchronism
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description	A high‐performance flexible pressure sensor is one of the most important components of electronic skin, which can endow artificial devices with human‐like capabilities. However, the electronic skin usually relies on the arrays of sensors to simultaneously obtain both pressure magnitude and position, making the data processing time‐consuming, tedious, and error‐prone. Here, a novel continuous pressure positioning sensor (PPS) with flexible multilayer structures based on a combinatorial bionic strategy is designed and fabricated. This PPS is composed of the pressure sensing layer (PSL) and the pressure positioning layer (PPL). The PSL exhibits high sensitivity (18.87 kPa −1 ) owing to the bionic crack structures. Based on the connection/disconnection of the upper and lower conductive layers, this PPL exhibits excellent positioning properties with excellent resolution (≈35 µm). More importantly, due to stable signal change and synchronization of signals between the two functional layers (>21 pa), this PPS can recognize the type of signal. Applications of the PPS for pressure monitoring, tire safety monitoring, lunar rover road condition monitoring, and emotional communication in human–computer interaction are further demonstrated to measure magnitude, position, and recognition of pressure signals. So, it will have broad application prospects in fields such as pressure detection and human–computer interaction.
doi_str_mv	10.1002/adfm.202314479
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However, the electronic skin usually relies on the arrays of sensors to simultaneously obtain both pressure magnitude and position, making the data processing time‐consuming, tedious, and error‐prone. Here, a novel continuous pressure positioning sensor (PPS) with flexible multilayer structures based on a combinatorial bionic strategy is designed and fabricated. This PPS is composed of the pressure sensing layer (PSL) and the pressure positioning layer (PPL). The PSL exhibits high sensitivity (18.87 kPa −1 ) owing to the bionic crack structures. Based on the connection/disconnection of the upper and lower conductive layers, this PPL exhibits excellent positioning properties with excellent resolution (≈35 µm). More importantly, due to stable signal change and synchronization of signals between the two functional layers (>21 pa), this PPS can recognize the type of signal. 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subjects	Bionics Combinatorial analysis Condition monitoring Data processing Lunar roving vehicles Multilayers Position measurement Pressure sensors Road conditions Sensor arrays Sensors Synchronism
title	A Continuous Pressure Positioning Sensor with Flexible Multilayer Structures Based on a Combinatorial Bionic Strategy
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