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Composite Fabrics of Conformal MoS<sub>2</sub> Grown on CNT Fibers: Tough Battery Anodes without Metals or Binders

Moumita Rana, Nicola Boaretto, Anastasiia Mikhalchan, Maria Vila Santos, Rebeca Marcilla, Juan Jose Vilatela

2021ACS Applied Energy Materials24 citationsDOIOpen Access PDF

Abstract

In the quest to increase battery performance, nanostructuring battery electrodes gives access to architectures with electrical conductivity and solid-state diffusion regimes not accessible with traditional electrodes based on aggregated spherical microparticles while often also contributing to the cyclability of otherwise unstable active materials. This work describes electrodes where the active material and current collector are formed as a single nanostructured composite network, consisting of macroscopic fabrics of carbon nanotube fibers covered with conformal MoS 2 grown preferentially aligned over the graphitic layers, without a metallic current collector or any conductive or polymeric additives. The composite fabrics of CNTF/MoS 2 retain high toughness and show out-of-plane electrical conductivity as high as 1.2 S/m, above the threshold to avoid electrical transport-limited performance of electrodes (1 S/m) and above that of control nanocomposite lithium-ion battery electrodes (0.1 S/m) produced from dispersed nanocarbons. Cycled against Li, they show specific capacity as high as 0.7 A h/g along with an appreciable rate capability and cycling stability in low (108% capacity retention after 50 cycles at 0.1 A/g) as well as high current density (89% capacity retention after 250 cycles at 1 A/g). The composite fabrics are flexible, with high tensile toughness up to 0.7 J/g, over two orders of magnitude higher than conventional electrodes or regular MoS 2 materials, and full-electrode capacity above state-of-the-art at different current densities.

Topics & Concepts

Materials scienceComposite numberElectrodeComposite materialAnodeBattery (electricity)Current collectorCarbon nanotubeElectrical conductorNanocompositeElectrical resistivity and conductivityConductivityCurrent densityToughnessCathodeDiffusionMetalElectrical contactsCarbon fibersTitaniumCapacity lossAdvancements in Battery Materials2D Materials and ApplicationsGraphene research and applications