Frequency band broadening and charge density enhancement of a vibrational triboelectric nanogenerator with two stoppers.

Vibrational triboelectric nanogenerators (V-TENG) can be used to harvest broadband vibration energy due to the nonlinear impact force induced by a stopper. However, V-TENGs with a single stopper have limited bandwidth and surface charge density, which has limited their application in wideband vibration energy harvesting. Herein, a V-TENG with two stoppers and a charge pumping effect is proposed for frequency band broadening and charge density enhancement. The theoretical analysis and experimental validation have indicated the V-TENG with two stoppers could improve the bandwidth by 75% compared with one stopper at a gap distance of 0.5 mm. Moreover, a charge pump can be constructed with two output channels, which has improved surface charge density by about 14 times. With the frequency varying from 18 to 38 Hz, the V-TENG can continually power 400 LEDs and charge a commercial capacitor quickly. This work has shown an encouraging method for enhancing the performance of V-TENGs, which also has great prospects in harvesting wideband vibration energy from machines, cars, ships, and human motions for self-powered electronics. The frequency band broadening mechanism and charge density enhancement technique of the vibrational TENG (V-TENG) were systematically elaborated. The introduction of double-sided stoppers strengthens the nonlinear characteristics of the V-TENG and broadens the frequency band. Furthermore, a high-performance V-TENG based on charge pump (CPV-TENG) is constructed according to the two output channels of the V-TENG. [Display omitted] • Research on the frequency band characteristics of a V-TENG based on two stoppers by theoretical analysis and simulation. • Demonstration of the frequency band broadening features of V-TENG under different conditions by experimental exploration. • A high-performance CPV-TENG based on the charge pump effects is constructed according to two output channels of V-TENG. [ABSTRACT FROM AUTHOR]