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Rapid Prototyping Flexible Capacitive Pressure Sensors Based on Porous Electrodes

Tiancong Zhao, Huichao Zhu, Hangyu Zhang

2023Biosensors23 citationsDOIOpen Access PDF

Abstract

Flexible pressure sensors are widely applied in tactile perception, fingerprint recognition, medical monitoring, human–machine interfaces, and the Internet of Things. Among them, flexible capacitive pressure sensors have the advantages of low energy consumption, slight signal drift, and high response repeatability. However, current research on flexible capacitive pressure sensors focuses on optimizing the dielectric layer for improved sensitivity and pressure response range. Moreover, complicated and time-consuming fabrication methods are commonly applied to generate microstructure dielectric layers. Here, we propose a rapid and straightforward fabrication approach to prototyping flexible capacitive pressure sensors based on porous electrodes. Laser-induced graphene (LIG) is produced on both sides of the polyimide paper, resulting in paired compressible electrodes with 3D porous structures. When the elastic LIG electrodes are compressed, the effective electrode area, the relative distance between electrodes, and the dielectric property vary accordingly, thereby generating a sensitive pressure sensor in a relatively large working range (0–9.6 kPa). The sensitivity of the sensor is up to 7.71%/kPa−1, and it can detect pressure as small as 10 Pa. The simple and robust structure allows the sensor to produce quick and repeatable responses. Our pressure sensor exhibits broad potential in practical applications in health monitoring, given its outstanding comprehensive performance combined with its simple and quick fabrication method.

Topics & Concepts

Capacitive sensingMaterials scienceElectrodeFabricationPressure sensorCapacitanceDielectricOptoelectronicsSensitivity (control systems)Rapid prototypingAcousticsElectronic engineeringComputer scienceComposite materialMechanical engineeringEngineeringOperating systemAlternative medicinePhysicsMedicinePhysical chemistryChemistryPathologyAdvanced Sensor and Energy Harvesting MaterialsTactile and Sensory InteractionsGas Sensing Nanomaterials and Sensors