Probing the energy conversion and storage process in two dimensional layered bismuthene-hexagonal boron nitride nanocomposite electrode and PVA-KOH-BaTiO3 piezoelectrolyte nanogenerators
The design and fabrication of effective piezoelectric self charging hybrid supercapacitor that efficiently harvest, convert, and store energies in a sustainable and cost-effective way is a cutting edge in the fields of advanced research. However, the output power generated from self charging power d...
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Veröffentlicht in: | Nano energy 2023-02, Vol.106, p.108060, Article 108060 |
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Format: | Artikel |
Sprache: | eng |
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Zusammenfassung: | The design and fabrication of effective piezoelectric self charging hybrid supercapacitor that efficiently harvest, convert, and store energies in a sustainable and cost-effective way is a cutting edge in the fields of advanced research. However, the output power generated from self charging power devices is insufficient to drive the portable and smart electronic systems. Herein, we fabricated a novel Polyvinyl Alcohol - Potassium hydroxide - Barium Titanate (PVA-KOH-BTO) multifunctional piezoelectrolyte based nanogenerators that potentially convert the mechanical energy to electrical energy. The all-in-one self charging hybrid supercapacitor (SCHSC) was fabricated using two dimensional Bismuthene-hexagonal Boron Nitride nanocomposite (Biene-h-BN NC) as cathode, activated carbon (AC) as anode and the PVA-KOH-BTO as piezoelectrolyte, delivering the specific capacity of 280 C/g at 1 A/g. Moreover, the SCHSC provides the high energy density of 87.5 Wh/kg and the high power density of 11250 W/kg. Remarkably, the self charging performance of SCHSC was investigated by externally applying compressive forces, delivering the maximum self charging potential of 146 mV at the compressive force of 50 N. This research generates a new idea towards the understanding of self charging performance by piezoelectrochemical effect and can be utilized as a potential candidate for the fabrication of futuristic smart electronic devices.
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•2D Bismuthene-hexagonal boron nitride nanocomposite was synthesized by liquid phase exfoliation technique.•Biene-h-BN//AC SCHSC delivering high energy density of 87.5 Wh/kg and the high power density of 11250 W/kg.•Self charging supercapacitor delivering the maximum potential of 146 mV under the compressive force of 50 N.•SCHSC provides the self-charging and discharging for eight cycles by externally applied force via thumb impact. |
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ISSN: | 2211-2855 |
DOI: | 10.1016/j.nanoen.2022.108060 |