Large-scale synthesis of highly porous carbon nanosheets for supercapacitor electrodes
2016
Abstract Two-dimensional (2D) porous carbon nanosheets were synthesized by a facile, low-cost, and scalable method. In this method, glucose was used as a carbon precursor and sodium chloride was employed as a water soluble template. The highly porous carbon nanosheets were prepared by the carbonization of glucose and sodium chloride and the following KOH chemical activation. The as-prepared carbon nanosheets (ACs-NaCl) have a thickness of less than 100 nm. The porous microstructure shows that the porosity of ACs-NaCl consists of essentially micropores with average pore size of ∼0.8 nm. In addition, they possess a large specific surface area up to 2266.6 m 2 g −1 , which is much higher than that of activated carbons (ACs) obtained without adding NaCl (1036.77 m 2 g −1 ). The ACs-NaCl electrode exhibits a high specific capacitance of 384 F g −1 at the current density of 0.1 A g −1 , excellent rate capability and good cycling durability in 6 M of KOH electrolyte. The enhanced capacitive performance of the ACs-NaCl electrode can be attributed to its unique structure that allows the short diffusion paths of electrolyte ions.
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