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Polymer‐Supported Graphene Sheet as a Vertically Conductive Anode of Lithium‐Ion Battery

Md Tareq Rahman, Sarwar Hossen, K. Jeong, Nabil H. Bhuiyan, Muhammad Rahman, Bappa Sarkar, Yongmin Jung, Joon S. Shim

2024Small Methods11 citationsDOIOpen Access PDF

Abstract

Abstract The increasing demand for electric vehicles necessitates the development of cost‐effective, mass‐producible, long‐lasting, and highly conductive batteries. Making this kind of battery is exceedingly tricky. This study introduces an innovative fabrication technique utilizing a laser‐induced graphene (LIG) approach on commercial Kapton film to create hexagonal pores. These pores form vertical conduction paths for electron and ion transportation during lithiation and delithiation, significantly enhancing conductivity. The nongraphitized portion of the Kapton film makes it a binder‐less, free‐standing electrode, providing mechanical stability. Various analytical techniques, including scanning electron microscopy (SEM), energy dispersive spectroscopy (EDS), Raman spectroscopy, and atomic force microscopy (AFM) are utilized to confirm the transformation of a 3D porous graphene sheet from a commercial Kapton film. Cross‐sectional SEM images verify the vertical connections. The specific capacity of 581 mAh g −1 is maintained until the end, with 99% coulombic efficiency at 0.1C. This simple manufacturing method paves the pathway for future LIG‐based, cost‐effective, lightweight, mass‐producible, long‐lasting, vertically conductive electrodes for lithium‐ion batteries.

Topics & Concepts

KaptonMaterials scienceGrapheneAnodeRaman spectroscopyElectrical conductorElectrodeScanning electron microscopeNanotechnologyLithium (medication)Battery (electricity)OptoelectronicsFaraday efficiencyPolyimideComposite materialOpticsChemistryPhysical chemistryMedicineQuantum mechanicsLayer (electronics)Power (physics)EndocrinologyPhysicsAdvancements in Battery MaterialsGraphene research and applicationsSupercapacitor Materials and Fabrication
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