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Three-dimensional reduced graphene oxide/montmorillonite nanosheet aerogels as electrode material for supercapacitor application
Abstract Three-dimensional reduced graphene oxide/montmorillonite nanosheet aerogels (RGMTAs) have been successfully fabricated through hydrothermal method. X-ray diffraction and field-emission scanning electron microscope were used to characterize the structures of RGMTAs, and the electrochemical performance was investigated by electrochemical measurements. The restacking of reduced graphene oxide aerogel can be effectively inhibited without obvious structure change by using a small amount of montmorillonite nanosheets (Mts). The reduced graphene oxide/Mts aerogel shows enhanced electrochemical performance with a high specific capacitance of 275 F g−1 at a current density of 1 A g−1, and excellent rate capability. Moreover, though it is not conductive, excessive Mts only slightly increase the equivalent series resistance and charge transfer resistance. This work demonstrates that 2D Mts can reduce the restacking degree of graphene sheets, and the 3D reduced graphene oxide/Mt. nanosheet aerogel is a potential electrode material for supercapacitor applications.
Highlights 2D montmorillonite nanosheets can inhibit the restacking of reduced graphene oxide sheets. Excessive montmorillonite nanosheets only slightly increase the equivalent series resistance and charge transfer resistance. The reduced graphene oxide/montmorillonite nanosheet aerogel shows enhanced electrochemical performance.
Three-dimensional reduced graphene oxide/montmorillonite nanosheet aerogels as electrode material for supercapacitor application
Abstract Three-dimensional reduced graphene oxide/montmorillonite nanosheet aerogels (RGMTAs) have been successfully fabricated through hydrothermal method. X-ray diffraction and field-emission scanning electron microscope were used to characterize the structures of RGMTAs, and the electrochemical performance was investigated by electrochemical measurements. The restacking of reduced graphene oxide aerogel can be effectively inhibited without obvious structure change by using a small amount of montmorillonite nanosheets (Mts). The reduced graphene oxide/Mts aerogel shows enhanced electrochemical performance with a high specific capacitance of 275 F g−1 at a current density of 1 A g−1, and excellent rate capability. Moreover, though it is not conductive, excessive Mts only slightly increase the equivalent series resistance and charge transfer resistance. This work demonstrates that 2D Mts can reduce the restacking degree of graphene sheets, and the 3D reduced graphene oxide/Mt. nanosheet aerogel is a potential electrode material for supercapacitor applications.
Highlights 2D montmorillonite nanosheets can inhibit the restacking of reduced graphene oxide sheets. Excessive montmorillonite nanosheets only slightly increase the equivalent series resistance and charge transfer resistance. The reduced graphene oxide/montmorillonite nanosheet aerogel shows enhanced electrochemical performance.
Three-dimensional reduced graphene oxide/montmorillonite nanosheet aerogels as electrode material for supercapacitor application
Ge, Wei (Autor:in) / Ma, Qiulin (Autor:in) / Ai, Zhong (Autor:in) / Wang, Wei (Autor:in) / Jia, Feifei (Autor:in) / Song, Shaoxian (Autor:in)
Applied Clay Science ; 206
08.02.2021
Aufsatz (Zeitschrift)
Elektronische Ressource
Englisch
| British Library Online Contents | 2014
| British Library Online Contents | 2018
| British Library Online Contents | 2018
| British Library Online Contents | 2018
Hydrothermally reduced graphene oxide as a supercapacitor
| British Library Online Contents | 2015