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Effect of lithiation on the elastic moduli of carbon fibres

Shanghong Duan, Anand H.S. Iyer, David Carlstedt, Florian Rittweger, Andrew Sharits, Calvin Maddox, Karl-Ragmar Riemschneider, David Mollenhauer, Magnus Hörnqvist Colliander, Fang Liu, E. Leif

2021Carbon44 citationsDOIOpen Access PDF

Abstract

Carbon fibre electrodes can enable a solid-state battery to carry mechanical load as normal construction materials. The multifunctionality is promising for most lightweight applications. Like all electrode materials, both volume and elastic moduli of the carbon fibre electrodes change during battery cycling. Such changes jeopardize the mechanical integrity of the battery. Due to the challenging corrosion problem of the lithiated component in air, the effect of lithiation on the carbon fibre's elastic moduli has yet to be explored. Also, robust data on the expansion of carbon fibres from lithiation are lacking. In the present work, we demonstrate a method and perform tests of corrosion protected carbon fibres in scanning electron microscope. The volume, and longitudinal and transverse moduli of a carbon fibre at three states of lithiation are determined and compared. The transverse modulus of the lithiated fibre is found to be more than double that of the pristine and delithiated fibres.

Topics & Concepts

Materials scienceComposite materialElastic modulusTransverse planeCarbon fibersBattery (electricity)ModuliElectrodeCorrosionScanning electron microscopeModulusStructural engineeringChemistryPower (physics)Physical chemistryQuantum mechanicsComposite numberPhysicsEngineeringAdvanced Battery Technologies ResearchFiber-reinforced polymer compositesAdvancements in Battery Materials
Effect of lithiation on the elastic moduli of carbon fibres | Litcius