Po Ling Huang scite author profile

Pores and surface functional groups are created on graphene nanosheets (GNSs) to improve supercapacitor properties in a butylmethylpyrrolidinium-dicyanamide (BMP-DCA) ionic liquid (IL) electrolyte. The GNS electrode exhibits an optimal capacitance of 330 F g(-1) and a satisfactory rate capability within a wide potential range of 3.3 V at 25 °C. Pseudocapacitive effects are confirmed using X-ray photoelectron spectroscopy. Under the same conditions, carbon nanotube and activated carbon electrodes show capacitances of 80 and 81 F g(-1) , respectively. Increasing the operation temperature increases the conductivity and decreases the viscosity of the IL electrolyte, further improving cell performance. At 60 °C, a symmetric-electrode GNS supercapacitor with the IL electrolyte is able to deliver maximum energy and power densities of 140 Wh kg(-1) and 52.5 kW kg(-1) (based on the active material on both electrodes), respectively, which are much higher than the 20 Wh kg(-1) and 17.8 kW kg(-1) obtained for a control cell with a conventional organic electrolyte.

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Ionic Liquid Electrolytes with Various Constituent Ions for Graphene-based Supercapacitors

Huang

Luo

Peng

et al. 2015

Electrochimica Acta

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Formation of metal coatings on magnesium using a galvanic replacement reaction in ionic liquid

et al. 2014

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Po Ling Huang

Holey Graphene Nanosheets with Surface Functional Groups as High‐Performance Supercapacitors in Ionic‐Liquid Electrolyte

Ionic Liquid Electrolytes with Various Constituent Ions for Graphene-based Supercapacitors

Formation of metal coatings on magnesium using a galvanic replacement reaction in ionic liquid

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