Multiscale Hierarchical Design of a Flexible Piezoresistive Pressure Sensor with High Sensitivity and Wide Linearity Range

Flexible piezoresistive pressure sensors have been attracting wide attention for applications in health monitoring and human‐machine interfaces because of their simple device structure and easy‐readout signals. For practical applications, flexible pressure sensors with both high sensitivity and wide...

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Veröffentlicht in:	Small (Weinheim an der Bergstrasse, Germany) Germany), 2018-07, Vol.14 (27), p.e1800819-n/a
Hauptverfasser:	Shi, Jidong, Wang, Liu, Dai, Zhaohe, Zhao, Lingyu, Du, Mingde, Li, Hongbian, Fang, Ying
Format:	Artikel
Sprache:	eng
Schlagworte:	Acoustic mapping Contact pressure Deformation Finite element method graphene hierarchical structure Linearity linearity range Nanotechnology Papillae piezoresistive Pressure distribution Pressure sensors Product design Replication Sensitivity Sensor arrays Sensors Spatial distribution Stress concentration Structural hierarchy Vibration monitoring Wrist
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creator	Shi, Jidong Wang, Liu Dai, Zhaohe Zhao, Lingyu Du, Mingde Li, Hongbian Fang, Ying
description	Flexible piezoresistive pressure sensors have been attracting wide attention for applications in health monitoring and human‐machine interfaces because of their simple device structure and easy‐readout signals. For practical applications, flexible pressure sensors with both high sensitivity and wide linearity range are highly desirable. Herein, a simple and low‐cost method for the fabrication of a flexible piezoresistive pressure sensor with a hierarchical structure over large areas is presented. The piezoresistive pressure sensor consists of arrays of microscale papillae with nanoscale roughness produced by replicating the lotus leaf's surface and spray‐coating of graphene ink. Finite element analysis (FEA) shows that the hierarchical structure governs the deformation behavior and pressure distribution at the contact interface, leading to a quick and steady increase in contact area with loads. As a result, the piezoresistive pressure sensor demonstrates a high sensitivity of 1.2 kPa−1 and a wide linearity range from 0 to 25 kPa. The flexible pressure sensor is applied for sensitive monitoring of small vibrations, including wrist pulse and acoustic waves. Moreover, a piezoresistive pressure sensor array is fabricated for mapping the spatial distribution of pressure. These results highlight the potential applications of the flexible piezoresistive pressure sensor for health monitoring and electronic skin. A wide‐linearity piezoresistive pressure sensor is fabricated with a simple and low‐cost method. The multiscale contact between the electrodes endows the sensor with a linearity range from 0 to 25 kPa and a sensitivity of 1.2 kPa−1. The sensor is further applied to sensitive monitoring of wrist pulse and acoustic waves, and mapping of pressure distribution.
doi_str_mv	10.1002/smll.201800819
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Moreover, a piezoresistive pressure sensor array is fabricated for mapping the spatial distribution of pressure. These results highlight the potential applications of the flexible piezoresistive pressure sensor for health monitoring and electronic skin. A wide‐linearity piezoresistive pressure sensor is fabricated with a simple and low‐cost method. The multiscale contact between the electrodes endows the sensor with a linearity range from 0 to 25 kPa and a sensitivity of 1.2 kPa−1. 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subjects	Acoustic mapping Contact pressure Deformation Finite element method graphene hierarchical structure Linearity linearity range Nanotechnology Papillae piezoresistive Pressure distribution Pressure sensors Product design Replication Sensitivity Sensor arrays Sensors Spatial distribution Stress concentration Structural hierarchy Vibration monitoring Wrist
title	Multiscale Hierarchical Design of a Flexible Piezoresistive Pressure Sensor with High Sensitivity and Wide Linearity Range
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