▎ 摘　　要

NOVELTY - An ionic polymer metal composite electrochemical drive preparing method involves preparing a graphene/carbon membrane tube by dissolving graphene and/or carbon nanotubes in an organic solvent and putting the dispersion in graphene/carbon nanotube film formed on the substrate. Nickel oxide-graphene/carbon nano tube electrode preparation process is performed by adding graphene/carbon nanotube membrane into salt and nickel salt. Electrolyte layer coating process is performed followed by hot pressing electrolyte layer to form ionic polymer metal composite electrochemical drive. USE - Method for producing ionic polymer metal composite electrochemical drive. ADVANTAGE - The method enables producing ionic polymer metal composite electrochemical drive with improved stability in simple and cost-effective manner. DETAILED DESCRIPTION - An ionic polymer metal composite electrochemical drive preparing method involves preparing graphene/carbon membrane tube by dissolving graphene and/or carbon nanotubes in an organic solvent to form dispersion and putting the dispersion in graphene/carbon nanotube film formed on the substrate, where the solvent is evaporated. Nickel oxide-graphene/carbon nano tube electrode preparation process is performed by adding graphene/carbon nanotube membrane into salt and nickel salt in an alkaline solution, insulating, cleaning, annealing to obtain a three-dimensional array structure of a nickel oxide-graphene/carbon nano-tube electrode. Electrolyte layer coating process is performed by applying thermoplastic polyurethane polymer and the ionic liquid to the dispersion of nickel oxide in graphene/carbon nano-electrode layer on the tube, where the solvent is evaporated to form an electrode layer and the electrolyte layer unitary structure. Ionic polymer metal composite electrochemical drive preparation process is performed by hot pressing electrolyte layer to form an integral structure of the docking ionic polymer metal composite electrochemical drive.