Litcius/Paper detail

Mechanically Driven Self-Healing MXene Strain Gauges for Overstrain-Tolerant Operation

Hao Wang, Yong Lin, Cheng Yang, Chong Bai, Gaohua Hu, Yuping Sun, Menglu Wang, Yanqing Lu, Desheng Kong

2024Nano Letters14 citationsDOI

Abstract

Compliant strain gauges are well-suited to monitor tiny movements and processes in the body. However, they are easily damaged by unexpected impacts in practical applications, limiting their utility in controlled laboratory environments. This study introduces elastic microcracked MXene films for mechanically driven self-healing strain gauges. MXene films are deposited on soft silicone substrates and intentionally stretched to create saturated microcracks. The resulting device not only has high sensitivity but also can recover its original sensing capability even after experiencing failure-level overstrains. This electrical self-healing ability is achieved through the elastic rebound of the substrate, which autonomously restores the microcracked morphology of the MXene film. The MXene strain gauge can withstand overextension, twisting, impact forces, and even car rolling. The device is also resilient to touch-induced damage during monitoring of physiological motions. The mechanically driven self-healing strategy may effectively improve the durability of highly sensitive strain sensors.

Topics & Concepts

Strain gaugeMaterials scienceSelf-healingGauge factorSubstrate (aquarium)DurabilityStrain (injury)LimitingSiliconeComposite materialNanotechnologyMechanical engineeringFabricationEngineeringAlternative medicineOceanographyMedicinePathologyInternal medicineGeologyAdvanced Sensor and Energy Harvesting MaterialsConducting polymers and applicationsTactile and Sensory Interactions