▎ 摘 要
NOVELTY - Preparing a thermally conductive coating comprises dispersing carbon nanotubes and graphene oxide in water to obtain a graphene oxide/carbon nanotube complex dispersion, adding a resin binder to the complex dispersion, stirring to obtain a first slurry, adding a photoinitiator, an adhesion promoter and a reducing agent to the first slurry and stirring to obtain a second slurry, filtering the second slurry to obtain the thermally conductive coating, where the thermal conductive coating includes 10-30 pts. wt. graphene oxide, 5-15 pts. wt. carbon nanotubes, 30-50 pts. wt. resin binder, 0.3-4 pts. wt. photoinitiator, 0.2-10 pts. wt. adhesion promoter, 0.5-3 pts. wt. reducing agent and an required amount of the water. USE - The method is useful for preparing a thermally conductive coating. ADVANTAGE - The method provides a method for preparing a thermally conductive film, thermally conductive coating and thermally conductive film. DETAILED DESCRIPTION - INDEPENDENT CLAIMS are also included for: preparing a thermal conductive film comprising adopting the method for preparing a thermally conductive coating to obtain the thermally conductive coating, coating the thermally conductive coating on a substrate, curing the thermally conductive coating by ultraviolet light irradiation to obtain the thermally conductive film; #thermally conductive coating comprising 10-30 pts. wt. graphene oxide, 5-15 pts. wt. carbon nanotubes, 30-50 pts. wt. resin binder, 0.3-4 pts. wt. photoinitiator, 0.2-10 pts. wt. adhesion promoter, 0.5-3 pts. wt. reducing agent and an required amount of water; and #thermally conductive film.