▎ 摘　　要

NOVELTY - The method involves laminating first and second heat dissipation films with a graphene cohesive material. Composite dispersed solution is formed in an inner side of an adhesive part that is made of nano gold. The heat dissipation films are made of graphene, graphite nanoplate and carbon nanotube. The second heat dissipation film is arranged on a release film that is made of graphene cohesive material. Metal alkoxide coupling agent is formed in graphene layer corporate body dispersed solution that is obtained through a homogenization part. USE - Method for manufacturing a radiant heat sheet of a heat dissipation device. ADVANTAGE - The method enables improving quality of a 3D structure hybrid thin film. The method enables improving a radiant heat sheet manufacturing process through a composition sintered process. The method enables improving radiation absorption and radiated emission process in an excellent manner. The method enables providing bulk-type radiator based on the existing metal and a radiant heat sheet so as to improve protection against heat characteristic process, thus reducing content of a metal base. The method enables reducing weight of the radiant heat sheet so as to improve moldability of a polymer. The method enables improving cooling efficiency of a heat dissipation device through a thermal diffusion layer. The method enables uniformly solving heat and heat discharge problem in an effective manner. The method enables improving energy efficiency of an electronic device. DETAILED DESCRIPTION - An INDEPENDENT CLAIM is also included for a radiant heat sheet. DESCRIPTION OF DRAWING(S) - The drawing shows a photographic view illustrating a radiant heat sheet manufacturing method.