Holey graphitic carbon nano-flakes with enhanced storage characteristics scaled to a pouch cell supercapacitor

Abstract: Supercapacitors with holey graphitic carbon nano-flakes (HGCNF) capable of demonstrating large specific capacitance (SC) have been developed for the first time. The unique approach of applying an additional conducting layer of carbon fabric (CF) coated with HGCNF at both half-cells provides a significant enhancement in SC, from 323 to 1142 F g -1 , for the half cell and from 8 to 487 F g -1 for the symmetric supercapacitor, when the architecture is modified from Ni/HGCNF//HGCNF/Ni to Ni/HGCNF/CF/HGCNF//HGCNF/C… Show more

“…The most commonly used energy storages for portable devices like smartwatches are the coin and pouch cells. Due to the well-developed production line for the longused methodology, there is high interest in the adaptability of the technique with the extension towards the supercapacitors for the emerging wearable technologies [53][54][55]. Pooachi et al recently developed prototypes of coin cells and pouch cells from nitrogen-doped reduced graphene oxide electrodes with phenylenediaminemediated organic electrolyte with a high specific capacitance of 563 and 340 F g −1 with high energy density 149.4 and 77.2 Wh•kg −1 at 1 A g −1 [56].…”

Wearable Supercapacitors, Performance, and Future Trends

“…The most commonly used energy storages for portable devices like smartwatches are the coin and pouch cells. Due to the well-developed production line for the longused methodology, there is high interest in the adaptability of the technique with the extension towards the supercapacitors for the emerging wearable technologies [53][54][55]. Pooachi et al recently developed prototypes of coin cells and pouch cells from nitrogen-doped reduced graphene oxide electrodes with phenylenediaminemediated organic electrolyte with a high specific capacitance of 563 and 340 F g −1 with high energy density 149.4 and 77.2 Wh•kg −1 at 1 A g −1 [56].…”

Wearable Supercapacitors, Performance, and Future Trends

Biomass‐based Supercapacitors: Lab to Industry

New development in carbon-based electrodes and electrolytes for enhancement of supercapacitor performance and safety