Recent Advances in Mechanical Vibration Energy Harvesters Based on Triboelectric Nanogenerators

With the development of autonomous/smart technologies and the Internet of Things (IoT), tremendous wireless sensor nodes (WSNs) are of great importance to realize intelligent mechanical engineering, which is significant in the industrial and social fields. However, current power supply methods, cable and battery for instance, face challenges such as layout difficulties, high cost, short life, and environmental pollution. Meanwhile, vibration is ubiquitous in machinery, vehicles, structures, etc., but has been regarded as an unwanted by-product and wasted in most cases. Therefore, it is crucial to harvest mechanical vibration energy to achieve in situ power supply for these WSNs. As a recent energy conversion technology, triboelectric nanogenerator (TENG) is particularly good at harvesting such broadband, weak, and irregular mechanical energy, which provides a feasible scheme for the power supply of WSNs. In this review, recent achievements of mechanical vibration energy harvesting (VEH) related to mechanical engineering based on TENG are systematically reviewed from the perspective of contact-separation (C-S) and freestanding modes. Finally, existing challenges and forthcoming development orientation of the VEH based on TENG are discussed in depth, which will be conducive to the future development of intelligent mechanical engineering in the era of IoT.

Automated summary

With the development of autonomous/smart technologies and the Internet of Things, wireless sensor nodes play a vital role in intelligent mechanical engineering. However, traditional power supply methods face challenges such as layout difficulties and environmental pollution. Therefore, it is crucial to harvest mechanical vibration energy using technologies like the triboelectric nanogenerator to provide in situ power supply for these nodes. This review systematically reviews recent achievements and discusses challenges and development orientation for mechanical vibration energy harvesting based on TENG, which will contribute to the future development of intelligent mechanical engineering in the era of IoT.