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MXene‐Sponge Based High‐Performance Piezoresistive Sensor for Wearable Biomonitoring and Real‐Time Tactile Sensing

Qikun Wei, Guorui Chen, Hong Pan, Zongbiao Ye, Christian Au, Chunxu Chen, Xun Zhao, Yihao Zhou, Xiao Xiao, Huiling Tai, Yadong Jiang, Guangzhong Xie, Yuanjie Su, Jun Chen

2021Small Methods126 citationsDOI

Abstract

Abstract Electrode microfabrication technologies such as lithography and deposition have been widely applied in wearable electronics to boost interfacial coupling efficiency and device performance. However, a majority of these approaches are restricted by expensive and complicated processing techniques, as well as waste discharge. Here, helium plasma irradiation is employed to yield a molybdenum microstructured electrode, which is constructed into a flexible piezoresistive pressure sensor based on a Ti 3 C 2 T x nanosheet‐immersed polyurethane sponge. This electrode engineering strategy enables the smooth transition between sponge deformation and MXene interlamellar displacement, giving rise to high sensitivity (1.52 kPa −1 ) and good linearity ( r 2 = 0.9985) in a wide sensing range (0–100 kPa) with a response time of 226 ms for pressure detection. In addition, both the experimental characterization and finite element simulation confirm that the hierarchical structures modulated by pore size, plasma bias, and MXene concentration play a crucial role in improving the sensing performance. Furthermore, the as‐developed flexible pressure sensor is demonstrated to measure human radial pulse, detect finger tapping, foot stomping, and perform object identification, revealing great feasibility in wearable biomonitoring and health assessment.

Topics & Concepts

Materials sciencePiezoresistive effectPressure sensorOptoelectronicsWearable computerNanotechnologyWaferElectrodeComputer scienceMechanical engineeringEmbedded systemChemistryEngineeringPhysical chemistryAdvanced Sensor and Energy Harvesting MaterialsMXene and MAX Phase MaterialsInnovative Energy Harvesting Technologies