R. Riaz, Bhaskar Dudem, M. C. Angeli, Ali Douaki, Mukhtar Ahmed, M. Petrelli, A. Mejia-Aguilar, R. Monsorno, S. R. Silva, P. Lugli, L. Petti
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Flexible, biocompatible, and ridged silicone elastomers based robust sandwich-type triboelectric nanogenerator
Energy harvesters for smart wearables are gaining increasing attention world-wide. Among the various type of options availabel, triboelectric nanogenerators harvesting mechanical energy from human body movements are especially attractive. In this work, a flexible sandwich-type triboelectric nanogenerator (FS-TENG) based on ridged and biocompatible silicone elastomers and thermoplastic polyurethane is proposed. The proposed FS- TENG exhibits the open-circuit voltages and maximum power density of ~80 volts and 0.35 mW/cm2, respectively. This preliminary performance already makes the device extremely promising to power low energy smart wearable devices, as well as monitor pressure in bespoke biomedical applications.
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