A triboelectric nanogenerator based on TPU/PVDF electrospinning for mechanical energy harvesting and monitoring running step rate

Abstract

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Wearable fiber flexible sensors for sports motion monitoring have recently received attention. However, wearable flexible sensors still face limitations in material and device design. Here, we proposed a thermoplastic polyurethane (TPU)/polyvinylidene fluoride (PVDF) film as triboelectric material to manufacture triboelectric nanogenerator (TP-TENG) for harvesting mechanical energy and athlete step rate monitoring. The TPU/PVDF fiber film can be fabricated by using electrospinning technology. In addition, the role of negative triboelectric materials is played by TPU/PVDF film, and the nylon film acts as a positive triboelectric material. The TP-TENG device follows a single-electrode working mode, and it is easy to integrate into human clothing. The TP-TENG electrical output can achieve the maximum output when the content of PVDF in TPU/PVDF film reaches 15%. The TP-TENG can acquire the maximum output power of 699 µW under a 7 MΩ load. Also, the TP-TENG can be used as an electronic skin to achieve self-powered pressure sensing, and the sensitivity of the pressure sensor based on TP-TENG can reach 14.08 V N−1. By integrating it inside the shoes, TP-TENG can obtain the pace rate of runners for sports motion monitoring. This research reports an effective method for monitoring step rate in running and has potential application value.