Litcius/Paper detail

Ultrastretchable Organogel/Silicone Fiber-Helical Sensors for Self-Powered Implantable Ligament Strain Monitoring

Feifan Sheng, Bo Zhang, Yihan Zhang, Yanyan Li, Renwei Cheng, Chuanhui Wei, Chuan Ning, Kai Dong, Zhong Lin Wang

2022ACS Nano103 citationsDOI

Abstract

Implantable sensors with the abilities of real-time healthcare monitoring and auxiliary training are important for exercise-induced or disease-induced muscle and ligament injuries. However, some of these implantable sensors have some shortcomings, such as requiring an external power supply or poor flexibility and stability. Herein, an organogel/silicone fiber-helical sensor based on a triboelectric nanogenerator (OFS-TENG) is developed for power-free and sutureable implantation ligament strain monitoring. The OFS-TENG with high stability and ultrastretchability is composed of an organogel fiber and a silicone fiber intertwined with a double helix structure. The organogel fiber possesses the merits of rapid preparation (15 s), good transparency (>95%), high stretchability (600%), and favorable stability (over 6 months). The OFS-TENG is successfully implanted on the patellar ligament of the rabbit knee for the real-time monitoring of knee ligament stretch and muscle stress, which is expected to provide a solution for real-time diagnosis of muscle and ligament injuries. The prepared self-powered OFS-TENG can monitor data on human muscles and ligaments in real-time.

Topics & Concepts

Materials scienceTriboelectric effectLigamentBiomedical engineeringFiberSiliconeFlexibility (engineering)Composite materialMedicineSurgeryStatisticsMathematicsAdvanced Sensor and Energy Harvesting MaterialsConducting polymers and applicationsMuscle activation and electromyography studies