FACILE SYNTHESIS NITROGEN-DOPED POROUS CARBON BY PYROLYZING BTA WITH EXCELLENT SUPERCAPACITANCE PERFORMANCE

Abstract

Nitrogen-doped porous carbon materials are a new type of electrode material with safety, nontoxicity, high conductivity and good electrochemical performance, which have recently attracted extensive attention due to its wide application in supercapacitors. In this work, carbon-based materials named ZBK-[Formula: see text] were prepared (where [Formula: see text] represents the different ratios of KNO 3 used in the synthesis), using the nitrogen-containing organic molecule benzotriazole as a carbon and nitrogen source, and ZnCl 2 and KNO 3 as activators. These materials were mixed and heated at 350 ∘ C for 1[Formula: see text]h and 750 ∘ C for 2[Formula: see text]h under N 2 to prepared porous carbon materials with a higher nitrogen content. The result had shown that material (ZBK-4) had a larger specific surface area (2292.47[Formula: see text]m 2 /g) and higher nitrogen and oxygen contents (4.88%[Formula: see text]N and 5.99% O). At the current density of 1[Formula: see text]A/g, the specific capacitance of ZBK-4 was 300[Formula: see text]F/g, indicating good rate capability. In addition, the specific capacitance of the material after 8000 cycles remained at 93.05%, indicating good cycle stability. Therefore, these experimental results have confirmed that the obtained nitrogen-doped porous carbon material has good electrochemical performance, and good prospects for application in the field of supercapacitors.