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Muscle-Inspired Anisotropic Hydrogel Strain Sensors

Qian Wang, Qian Zhang, Guangyu Wang, Yuanrui Wang, Xiuyan Ren, Guanghui Gao

2021ACS Applied Materials & Interfaces131 citationsDOI

Abstract

Hydrogel strain sensors have attracted tremendous attention in medical monitoring, flexible wearable devices, and human–machine interfaces. However, traditional hydrogels exhibit isotropic sensing performance based on their isotropic structure. Therefore, it is challenging to fabricate a hydrogel with an anisotropic structure similar to human tissues for achieving anisotropic sensing characteristics. Herein, we proposed a simple and effective method for preparing anisotropic poly(vinyl alcohol) (PVA) conductive hydrogels, which demonstrated anisotropic mechanical properties and anisotropic ion conductivity. The anisotropic hydrogel was successfully constructed through first thermal stretching and then directional freezing. The mechanical strength of hydrogels along the parallel stretching direction (stress of 1596 kPa and toughness of 3.69 MJ/m3) was higher than that of the hydrogels along the vertical stretching direction (stress of 883.1 kPa and toughness of 1.96 MJ/m3). Moreover, the hydrogel showed anisotropic conductivity on the advantage of the different ion channels. The prepared hydrogel sensor exhibited anisotropic sensing for multidirectional stress in the strain range from 0.5 to 100%. The gauge factors (GF) parallel to the stretching direction were greater than the GF vertical to the stretching direction. The anisotropic hydrogel sensors are expected to have broad application prospects in flexible wearable devices and medical monitoring.

Topics & Concepts

Materials scienceSelf-healing hydrogelsAnisotropyIsotropyPiezoresistive effectVinyl alcoholToughnessGauge factorComposite materialStress (linguistics)PolymerOpticsFabricationPolymer chemistryMedicinePathologyLinguisticsPhysicsAlternative medicinePhilosophyAdvanced Sensor and Energy Harvesting MaterialsConducting polymers and applicationsMuscle activation and electromyography studies
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