Electrochromic-Hybrid energy storage material consisting of triphenylamine and dithienothiophene

[Display omitted] •Synthesis of the novel DTTpTPA monomer.•Electrochemical deposition of hybrid energy storage CMP electrode.•High capacity 54 mA h g−1 and high capacitance of 242F g−1.•High energy density of 43 W h kg−1.•Monitored the energy storage level through the color change. Conductive polymers are considered to be promising material for energy storage applications. Herein, a microporous hybrid energy storage material made of triphenylamine and dithienothiophene, having smart function charge property controlled by color change, is reported. Its polymer film having orange color switched to blue when a voltage is applied to charge the polymer film by oxidation. The film was obtained by potantiodynamic method, and its polymerization mechanism was explained using density functional theory (DFT) calculations. The hybrid energy storage material showed a high specific capacity of 54 mA h g−1, a high capacitance of 242F g−1 at 0.5 A g−1 and a high energy density of 43 W h kg−1 at current density of 10 A g−1. Symmetric energy storage device worked at a high voltage (3 V) and lit a red lamp for several seconds. Its combined electrochromic, high optical contrast of 60% and energy storage properties make the microporous polymer an efficient candidate for smart electronic applications, where energy capacity is monitored by simple visual color change.