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Capillary Evaporation on High‐Dense Conductive Ramie Carbon for Assisting Highly Volumetric‐Performance Supercapacitors

Qing Wang, Zhenyu Chen, Qitian Luo, Haijian Li, Jie Li, Weiqing Yang

2023Small27 citationsDOI

Abstract

Abstract Conductive biomass carbon possesses unique properties of excellent conductivity and outstanding thermal stability, which can be widely used as conductive additive. However, building the high‐dense conductive biomass carbon with highly graphitized microcrystals at a lower carbonization temperature is still a major challenge because of structural disorder and low crystallinity of source material. Herein, a simple capillary evaporation method to efficiently build the high‐dense conductive ramie carbon (hd‐CRC) with the higher tap density of 0.47 cm 3 g −1 than commercialized Super‐C45 (0.16 cm 3 g −1 ) is reported. Such highly graphitized microcrystals of hd‐CRC can achieve the high electrical conductivity of 94.55 S cm −1 at the yield strength of 92.04 MPa , which is higher than commercialized Super‐C45 (83.92 S cm −1 at 92.04 MPa). As a demonstration, hd‐CRC based symmetrical supercapacitors possess a highly volumetric energy density of 9.01 Wh L −1 at 25.87 kW L −1 , much more than those of commercialized Super‐C45 (5.06 Wh L −1 and 19.30 kW L −1 ). Remarkably, the flexible package supercapacitor remarkably presents a low leakage current of 10.27 mA and low equivalent series resistance of 3.93 mΩ. Evidently, this work is a meaningful step toward high‐dense conductive biomass carbon from traditional biomass graphite carbon, greatly promoting the highly‐volumetric–performance supercapacitors.

Topics & Concepts

Materials scienceSupercapacitorElectrical conductorCarbon fibersCarbonizationGraphiteComposite materialBiomass (ecology)Power densityCrystallinityConductivityChemical engineeringNanotechnologyComposite numberElectrodeElectrochemistryScanning electron microscopeChemistryPhysicsPhysical chemistryOceanographyPower (physics)Quantum mechanicsGeologyEngineeringSupercapacitor Materials and FabricationGraphene research and applicationsAdvanced Sensor and Energy Harvesting Materials