Tensegrity-inspired triboelectric nanogenerator for broadband and impact-resistive vibration sensing

Vibration in the environment usually shows uncertainty with random changes in frequency and sudden accel-eration impact. However, it is a huge challenge for existing vibration energy harvesters and sensors to work in random and even extreme vibration environments due to their rigid multi-component architecture with me-chanical mismatches. Here, we propose a general design of vibration transduction with broadband response and high mechanical robustness that mimics the biological musculoskeletal system. Such design is based on a ten-segrity structure, consisting of a rigid frame and soft strings, combined with triboelectric nanogenerator (TENG). The Tensegrity-inspired triboelectric nanogenerator is of broadband (0-200 Hz) frequency response and exhibits excellent impact resistance under high g acceleration impacts (105 g level). The device can still work normally after undergoing some structural damage. It has been successfully applied to the aeolian vibration monitoring of transmission lines and shows more reliable performance than commercial sensors when suffering the hail impact. Such tensegrity structure design has great potential in high-performance vibration monitoring in the industrial environment.

Automated summary

In this study, a tensegrity-inspired design based on the biological musculoskeletal system is proposed to address the challenges faced by existing vibration energy harvesters and sensors in random and extreme vibration environments. The design incorporates a ten-segrity structure with a triboelectric nanogenerator, allowing for vibration transduction in a broadband frequency range (0-200 Hz) and excellent impact resistance under high g acceleration impacts (105 g level). The device remains functional after experiencing some structural damage and demonstrates more reliable performance than commercial sensors when subjected to severe hail impacts. The tensegrity structure design holds great potential for high-performance vibration monitoring in industrial settings.