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Microwave exfoliation of a biochar obtained from updraft retort carbonization for supercapacitor fabrication

Oluwaseyi D. Saliu, Adewale George Adeniyi, Messai A. Mamo, Patrick Ndungu, James Ramontja

2022Electrochemistry Communications20 citationsDOIOpen Access PDF

Abstract

Biochar can offer a sustainable and renewable solution to energy storage problems. In this work, a biochar (which we refer to as an exfoliated biochar) with well-formed edge and basal planes was developed and characterized, and its electrochemical properties were tested. Using a three-electrode configuration for study purposes, the original specific capacitance (Csp) of 283 Fg−1 increased to 517 Fg−1 after exfoliation, with an energy density (Ed) of 258.5 WhKg−1, while retaining 95% of its capacity after 5000 cycles with an average charge time of 120 s. The CPE fitting of the EIS showed an ‘n’ value of 0.773, confirming diffusion-based charge storage and a very low ESR. In a two-electrode real world test using a PAT El-cell, a retention capacity of 96.5% was obtained, with a charge time of 210 s. In addition, Csp and Ed values of 493 Fg−1 and 246 WhKg−1 were obtained. The self-discharge profile showed a two-stage self discharge before exfoliation (0.75–0.2–0.08 A), and a one-stage stable self-discharge profile from 0.9 to 0.18 A after exfoliation, demonstrating the high stability of the biochar nanosheets after exfoliation. This work shows that nanosheet forms of biochars can generate a high energy density and offer a long cycle life with minimum self-discharge, making them suitable for supercapacitor applications.

Topics & Concepts

BiocharSupercapacitorExfoliation jointMaterials scienceCarbonizationElectrodeEnergy storageNanosheetCapacitanceChemical engineeringComposite materialGrapheneNanotechnologyChemistryScanning electron microscopePyrolysisThermodynamicsPhysical chemistryEngineeringPhysicsPower (physics)Supercapacitor Materials and FabricationMembrane-based Ion Separation TechniquesAdvancements in Battery Materials