▎ 摘　　要

NOVELTY - A self-supporting graphene/carbon nanotube hybrid foam loaded aminoanthraquinone-based polymer composite preparing method involves utilizing high-boiling organic solvent for converting graphene oxide/carbon nanotube hybrid into an aqueous dispersion of graphene oxide and dissolving in anthraquinone monomers to form an organic dispersion of graphene oxide/carbon nanotube and amino anthraquinone. The obtained organic dispersion of graphene oxide/carbon nanotube and amino anthraquinone is subjected to an electrochemical polymerization process to obtain the finished product. USE - Method for preparing a self-supporting graphene/carbon nanotube hybrid foam loaded aminoanthraquinone-based polymer composite that is utilized in a lithium-ion battery electrochemicalenergy storage application. ADVANTAGE - The method enables preparing the polymer composite with excellent electrochemical properties. DETAILED DESCRIPTION - A self-supporting graphene/carbon nanotube hybrid foam loaded aminoanthraquinone-based polymer composite preparing method involves utilizing high-boiling organic solvent for converting graphene oxide/carbon nanotube hybrid into an aqueous dispersion of graphene oxide and dissolving in anthraquinone monomers to form an organic dispersion of graphene oxide/carbon nanotube and amino anthraquinone. The obtained organic dispersion of graphene oxide/carbon nanotube and amino anthraquinone is subjected to an electrochemical polymerization process to obtain the finished product, where the aminoanthraquinone polymer nanoparticles is uniformly supported on a conductive network having graphene/carbon nanotube foam.