▎ 摘　　要

NOVELTY - The film has a graphene heating coating coated on a carrier. The graphene heating coating is thermally pressed and covered with a high-molecular insulating film. A bottom of the graphene heating coating is provided with an electrode strip. The electrode strip is electrically connected with the graphene heating coating. The electrode strip and the carrier are provided with a barrier electrode strip. Two ends of the graphene heating coating are provided with an electrode connecting section. The electrode connecting section is clamped between the graphene heating coating and an electrode current carrying strip. The graphene heating coating is electrically connected with the electrode current carrying strip through the electrode connecting section. The graphene heating coating is made of platinum quantum dot doped graphene-based conductive ink. USE - Flexible graphene heating film. ADVANTAGE - The flexible graphene heating film is made of platinum quantum dot doped graphene-based conductive ink so as to ensure uniform platinum quantum dot doping process, uniform quantum dot nano size, small average particle diameter, stable graphene oxide structure, controllable graphene heating coating thickness and square resistance. DETAILED DESCRIPTION - An INDEPENDENT CLAIM is included for a flexible graphene heating film manufacturing method. DESCRIPTION OF DRAWING(S) - The drawing shows an exploded perspective view of a flexible graphene heating film.