Environmental multi-physics coupled tribovoltaic effect for energy harvesting
Yuan Feng, Zhi Zhang, Likun Gong, Ruifei Luan, Zhaozheng Wang, Sicheng Dong, Chi Zhang
Abstract
<p indent="0mm">The tribovoltaic effect represents a newly discovered semiconductor effect for mechanical-to-electrical energy conversion. However, the semiconductor interfaces are typically susceptible to environmental multi-physics fields, such as illumination, temperature, and humidity, which can affect the energy conversion process of the tribovoltaic effect. In this review, we provide a comprehensive overview of the current research status of the environmental multi-physics coupled tribovoltaic effect for energy harvesting. We summarize the electrical output characteristics of tribovoltaic nanogenerators (TVNGs) in various physical field environments and the impact mechanisms of these fields on electrical performance, demonstrating their ability to capture and convert a wide range of mechanical energies, including wind, rain, waves, and illumination. We discuss the fundamental principles underlying these devices, their potential applications, and the key challenges and opportunities for future development. This review deepens our understanding of the energy harvesting mechanism of the tribovoltaic effect in multi-physics coupling. Adopting a multi-physics energy harvesting strategy not only broadens the scope and efficiency of energy harvesting but also drives the development of novel energy conversion devices, proposing fresh ideas for future innovations in sustainable energy solutions.