▎ 摘　　要

NOVELTY - The heat dissipation film has a first graphene conductive layer (11), a first support layer (12) located on one side of the first graphene conductive layer, a first buffer layer (13) located on a side of the first support layer away from the first graphene conductive layer, and a heat dissipation layer (14) located on a side of the first buffer layer away from the first graphene conductive layer. The heat dissipation film further comprises first accommodating holes arranged on the surface of the heat dissipation layer away from the first graphene conductive layer and extend in a direction close to the first graphene conductive layer, where graphene is filled in each of the first accommodating holes. The first accommodating holes penetrate the heat dissipation layer, the first buffer layer, and the first support layer. The first accommodating holes are connected to the first supporting layer. The graphene in first receiving hole is connected to first graphene conductive layer. USE - The heat dissipation film is used in display device (claimed) i.e. LCD device for organic electroluminescence (EL) display device and plasma display panel (PDP). ADVANTAGE - The radiating film has excellent heat dissipation and electrostatic dissipation performance, and has excellent mechanical performance and good flatness. DETAILED DESCRIPTION - An INDEPENDENT CLAIM is also included for a display device. DESCRIPTION OF DRAWING(S) - The drawing shows a schematic structural view of a first cross-section of the heat dissipation film. First graphene conductive layer (11) First Support layer (12) First buffer layer (13) Heat dissipation layer (14) First accommodating hole (15) Graphene conductive column (17) Second buffer layer (19) Adhesive layer (20)