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In Situ Grown MWCNTs/MXenes Nanocomposites on Carbon Cloth for High‐Performance Flexible Supercapacitors

Hui Li, Rui Chen, Mumtaz Ali, Haiwon Lee, Min Jae Ko

2020Advanced Functional Materials158 citationsDOI

Abstract

Abstract Owing to their large surface‐area‐to‐volume ratios, 2D titanium carbides and nitrides (MXenes) have emerged as promising materials for energy storage devices. However, poor interlayer and interparticle conductivity of MXenes (due to its anisotropic nature) is a bottleneck for widening their applications. Additionally, the stacked structure of MXene sheets limits the exposed surface area and renders a complex electrolyte diffusion. To address these issues, a unique composite comprising of homogeneously grown multiwall carbon nanotubes (MWCNTs) on carbon cloth (CC)‐supported MXene sheets (denoted as MWCNTs‐MXene@CC) is proposed. The MWCNTs‐MXene@CC reveal the synergistic combination of exfoliated large surface area and excellent conductivity. Consequently, the fabricated electrode exhibits a specific capacitance of 114.58 mF cm −2 at a discharge current of 1 mA cm −2 , while maintaining high retention after 1.6 × 10 4 cycles at 10 mA cm −2 . Such high performance of the composite structure is attributed to the superb interlayer and interparticle conductivity imparted by the grown MWCNTs. Furthermore, the grown MWCNTs also serve as the interlayer pillar in MXene sheets, thus preventing the spontaneous collapse of the latter. The approach can be extended to other electrocatalyst systems in which ion transport and electrolyte diffusion need to be addressed simultaneously.

Topics & Concepts

MXenesMaterials scienceSupercapacitorElectrolyteNanocompositeCarbon nanotubeComposite numberConductivityNanotechnologyElectrodeCarbon fibersComposite materialChemical engineeringCapacitancePhysical chemistryChemistryEngineeringMXene and MAX Phase MaterialsSupercapacitor Materials and FabricationAdvancements in Battery Materials
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