Multi-energy harvesting: Integrating contact-mode and slide-mode triboelectric nanogenerators, and solar technologies for efficient power generation in small electronic

Abstract

Harvesting energy from the environment is getting more attention daily to drive small electronics. This paper presents a hybrid energy harvesting module that uses contact-mode triboelectric nanogenerator, slide-mode nanogenerator, and solar energy to generate electrical power. The fabricated module has three parts, i.e., the base part operating in triboelectric contact mode, the rotary part employing lateral sliding triboelectricity, and solar cells for harnessing sunlight. The 3D designed module parts have been fabricated using 3D printer and laser cutting machine. Subsequently, the parts were assembled by applying triboelectric (Aluminum and Kapton) material onto them. The triboelectric contact mode generated 0.57 µW of electric power achieving power density achieved 57 µWm−2 at the contact area of 100 cm2. Electric power delivered by triboelectrification of the rotary part was 117 µW, whereas the power density was recorded as 232.6 µWm−2 at the contact area 503.36 cm2, and power delivered by solar cells was 66.64 mW. The designed module successfully delivered power to small electronic devices such as electronic thermometers, digital calculators, digital clocks, and 25 green-coloured LEDs. The implications of these findings suggest that such a hybrid module can significantly extend the operational life and independence of small-scale electronics, making it a promising solution for remote sensing, wearable technology, and IoT devices.