Abstract
Heteroatom doping and well-tuned porosity are regarded as two important pathways to enhance energy storage performance of porous carbon materials (PCMs). In this context, N-doped triazine-based graphdiyne (TGDY) and its hydrogen-containing counterpart HGDY were bulk-synthesized by Glaser coupling reaction from multi-acetylene monomers M1 and M2 respectively. TGDY exhibits a two-dimensional layer-by-layer structure and a high specific BET surface area of 785 m2 g−1. After heat-treatment at an optimized temperature of 800 °C, TGDY-800 shows a high specific capacitance of 250 F g−1 at 0.1 A g−1 and a remarkable capacitance retention of 97.6% at 1 A g−1 after 10,000 cycles. These results are superior to HGDY-800 with similar structural skeleton and many other N-doped PCMs, indicating the synergetic effect of N-doping and high surface area. This work could effectively cast insight into designing of nanoporous carbon materials with good energy storage performance.
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