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Self-healable, recyclable, and mechanically robust vitrimer composite for high-performance triboelectric nanogenerators and self-powered wireless electronics

Araz Rajabi‐Abhari, Pandeng Li, Majid Haji Bagheri, Asif Abdullah Khan, Cheng Hao, Nicolas R. Tanguy, Dayan Ban, Longjiang Yu, Ning Yan

2024Nano Energy22 citationsDOIOpen Access PDF

Abstract

With growing concerns about sustainability, there has been significant research interest in fabricating triboelectric nanogenerators (TENGs) from materials capable of self-repair. Here, we presented a novel polyimine/graphite polypropylene (PI/GP) vitrimer composite as a tribo-positive material for harvesting biomechanical energy. The PI/GP exhibited mechanical robustness, self-healing properties after damage, and recyclability through physical or chemical methods. The GP provided a high dielectric constant, charge transport paths, and desirable surface roughness, resulting in an outstanding TENG performance at an optimized addition level of 30 wt% in the composite (PI/GP30). Under a force of 15 N and a frequency of 6 Hz, the PI/GP30 TENG generated a power density of 2571 mW/m². Moreover, a PI/GP30 TENG device with an area of 49 cm 2 was able to generate a remarkable output voltage of nearly 1325 V, at a frequency of 6 Hz and under a vertical force of 15 N. Additionally, the PI/GP30 TENG device produced a peak-to-peak voltage of 1250 V, and an outstanding current of around 2 mA by hand tapping with a force of 35–40 N. The PI/GP30 TENG was utilized for real-life applications, including a triboelectric watchband for a self-powered watch, and wireless data transmission. Furthermore, the PI/GP30 TENG demonstrated excellent self-healing and recyclability, and these properties were examined in a mousepad power generator. This study highlights the excellent promise of PI/GP vitrimer composite for fabricating high-performance, mechanically robust, self-healable, and recyclable TENGs, enabling their applications in green biomechanical power generators and wearable and wireless communication devices. This study shows that a mechanically robust vitrimer composite possessing a high dielectric constant, charge transfer capability, good electron-donating abilities, self-healability, and remarkable recyclability could be applied for triboelectric energy generation with an outstanding performance. • A vitrimer composite of polyimine (PI) and graphite/polypropylene homopolymer powder (GP) was developed. • Leveraging dielectric properties, charge transfer, and roughness, the TENG exhibited excellent triboelectric performance. • The PI/GP30 TENG demonstrated excellent mechanical robustness, self-healing and recyclability.

Topics & Concepts

Triboelectric effectMaterials scienceSelf-healingElectronicsComposite numberNanotechnologyComposite materialEngineeringElectrical engineeringMedicineAlternative medicinePathologyAdvanced Sensor and Energy Harvesting MaterialsPolymer composites and self-healingConducting polymers and applications