Polyacetylene carbon materials: facile preparation using AlCl(3) catalyst and excellent electrochemical performance for supercapacitors

Polyacetylene (PA) was synthesized for the first time under mild conditions via polymerization of acetylene in n-octane with AlCl(3) as a catalyst, whereby a series of PA-derived carbon materials were obtained. Their composition and structure were characterized and their electrochemical performance was evaluated systematically. It is found that acetylene gas at 1 MPa can polymerize explosively at room temperature under catalysis of AlCl(3), forming acetylene black-like PA and a great amount of H(2), while in the presence of n-octane solvent, acetylene polymerizes smoothly at higher temperature (30 to 300 °C), forming PA with a H(CH[double bond, length as m-dash]CH)(n)H structure. A series of PA-derived carbon materials are obtained by treating PA with KOH at 800 °C. The as-synthesizzed PA-100–KOH exhibits a high specific surface area (∼2500 m(2) g(−1)), high specific capacitance (241 F g(−1) at a current density of 0.1 A g(−1) and 143 F g(−1) at 5 A g(−1)), low AC resistance, and good cycling stability with 91.7% maintenance of capacity after 2000 cycles at a current density of 2 A g(−1). This paper provides a new method for the facile synthesis of PA and a novel carbon source for supercapacitor electrode materials with excellent electrochemical performance and practical application.