Distributed Strain Sensor Based on Self‐Powered, Stretchable Mechanoluminescent Optical Fiber

Abstract: The ability to locate and quantify large strains will significantly improve the real‐world application scenario of flexible and stretchable strain sensors. However, current methods for implementing stretchable distributed strain sensing still face challenges such as complicated demodulation, multisensor crosstalk, and high power consumption. Herein, a self‐powered and stretchable optical fiber strain sensor is reported with distributed sensing capability based on mechanoluminescent optical fiber, where mechano… Show more

“…In the future, the design and manufacturing of wearable fiber optic sensors must balance performance with cost-effectiveness. Advancements and innovations in technology will likely make future fiber optic sensors more efficient and cost-effective, expanding their use in clinical and rehabilitation fields [ 116 , 117 , 118 , 119 , 120 ].…”

A Review of Wearable Optical Fiber Sensors for Rehabilitation Monitoring

“…In the future, the design and manufacturing of wearable fiber optic sensors must balance performance with cost-effectiveness. Advancements and innovations in technology will likely make future fiber optic sensors more efficient and cost-effective, expanding their use in clinical and rehabilitation fields [ 116 , 117 , 118 , 119 , 120 ].…”

A Review of Wearable Optical Fiber Sensors for Rehabilitation Monitoring

Self-recoverable NIR mechanoluminescence from Cr3+ doped perovskite type aluminate