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Direct Chemical Synthesis of MnO2 Nanowhiskers on Transition- Metal Carbide Surfaces for Supercapacitor Applications

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dc.contributor.author Raghavan Baby Rakhi
dc.contributor.author Ahmed, B
dc.contributor.author Dalaver, Anjum
dc.contributor.author Alshareef, H N
dc.date.accessioned 2017-05-22T06:16:20Z
dc.date.available 2017-05-22T06:16:20Z
dc.date.issued 2016-07-05
dc.identifier.citation ACS Applied Material Interfaces 8:18806-18814 en_US
dc.identifier.uri http://hdl.handle.net/123456789/2800
dc.description.abstract Transition-metal carbides (MXenes) are an emerging class of two-dimensional materials with promising electrochemical energy storage performance. Herein, for the first time, by direct chemical synthesis, nanocrystalline ε-MnO2 whiskers were formed on MXene nanosheet surfaces (ε- MnO2/Ti2CTx and ε-MnO2/Ti3C2Tx) to make nanocomposite electrodes for aqueous pseudocapacitors. The ε-MnO2 nanowhiskers increase the surface area of the composite electrode and enhance the specific capacitance by nearly 3 orders of magnitude compared to that of pure MXene-based symmetric supercapacitors. Combined with enhanced pseudocapacitance, the fabricated ε-MnO2/MXene supercapacitors exhibited excellent cycling stability with ∼88% of the initial specific capacitance retained after 10000 cycles which is much higher than pure ε-MnO2-based supercapacitors (∼74%). The proposed electrode structure capitalizes on the high specific capacitance of MnO2 and the ability of MXenes to improve conductivity and cycling stability en_US
dc.language.iso en en_US
dc.publisher ACS publication en_US
dc.subject MXene en_US
dc.subject ε-MnO2/MXene en_US
dc.subject specific capacitance en_US
dc.subject cycle life en_US
dc.subject symmetric supercapacitor en_US
dc.title Direct Chemical Synthesis of MnO2 Nanowhiskers on Transition- Metal Carbide Surfaces for Supercapacitor Applications en_US
dc.type Article en_US


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