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Title: | Ultrathin 2D Sheets of Graphene and WS2 for Energy Storage Applications |
Authors: | Naseer, Sufyan Riaz, Adeel Khan, Ramsha Mansoor, Khalid Abbas, Qaisar Javed, Sofia Akram, M. Aftab Jan, Rahim |
Keywords: | Engineering and Technology Atomic force microscopy 2D materials Transition metal dichalcogenides (TMDs) Supercapacitor Liquid phase exfoliation |
Issue Date: | 1-Jan-2019 |
Publisher: | 2019 16th International Bhurban Conference on Applied Sciences and Technology (IBCAST) |
Abstract: | Ultrathin 2D-nanomaterials are currently being exploited and employed for energy storage applications. Graphene nanosheets (GNS) are the most favorable candidate for energy storage and charge transfer due to its extraordinary novel properties. Other than graphene, various 2D materials like transition metal dichalcogenides (TMDs) are used in charge storage applications too. In this article, ultrathin 2D sheets of various 2D materials like graphene and TMDs like WS 2 were being prepared by liquid phase exfoliation method. The exfoliated 2D sheets were characterized by x-ray diffraction (XRD), scanning electron microscopy (SEM), UV-Vis spectrometer, and atomic force microscopy (AFM). SEM and AFM being used to determine the morphology and dimensional aspects of prepared exfoliated sheets, respectively. The exfoliated sheets were coated over PET membranes in single layer and layer by layer assembly for evaluating their supercapacitance, respectively. The prepared films were tested with galvanostatic charge-discharge cycles and cyclic voltammetry (CV) in 1 M Na 2 SO 4 as electrolyte. Results obtained from layer by layer assembly of WS 2 -GNS showed a high efficiency of 96% charge retention after 1000 cycles. The WS 2 /GNS multilayer films can exhibit a high value of specific capacitance about 800 F kg -1 and area calculated for this capacitance was 70 F m -2 under 10 mVs -1 scan rate. And the film exhibits good cycle stability over 1000 cycles. The results suggest that the WS 2 -GNS layer by layer assembly is quite suitable as well as favorable electrode materials for high performance energy storage devices like supercapacitors. |
URI: | http://142.54.178.187:9060/xmlui/handle/123456789/1711 |
ISBN: | 978-1-5386-7729-2 |
Appears in Collections: | Proceedings |
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8667121.htm | 115 B | HTML | View/Open |
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