▎ 摘　　要

NOVELTY - Realizing high temperature rubber conduction using vapor deposited graphene, comprises (i) taking acrylate rubber doped with nano-copper/nickel sheet and nano-gallium-indium particles to obtain vapor-deposited graphene surface film; (ii) coating vapor deposited graphene surface film on surface of acrylate rubber doped with nano copper/ nickel sheet and nano gallium-indium particles; (iii) mixing main monomer, vulcanization point monomer propylene glycol methacrylate, nano copper/nickel flakes, nano gallium-indium particles and solvent to form monomer mixed solution, and heating monomer mixed solution to a constant temperature and adding initiator, and taking sample, dehydrating sample and drying to obtain an acrylate rubber doped with nano-copper/nickel sheets and nano-gallium-indium particles; and (iv) depositing graphene film on surface of acrylate rubber doped with the nano-copper/nickel sheet and nano-gallium-indium particles by a plasma enhanced vapor deposition method. USE - The method is useful for realizing high temperature rubber conduction using vapor deposited graphene. ADVANTAGE - The method is simple and has obvious effect. DETAILED DESCRIPTION - Realizing high temperature rubber conduction using vapor deposited graphene, comprises (i) acrylate rubber doped with a nano-copper/nickel sheet and nano- gallium-indium particles and preparing vapor-deposited graphene surface film; (ii) coating a vapor deposited graphene surface film on the surface of the acrylate rubber doped with the nano copper/ nickel sheet and the nano gallium-indium particles; (iii) utilizing butyl acrylate, ethyl acrylate or methyl acrylate as a main monomer, mixing main monomer, vulcanization point monomer propylene glycol methacrylate, nano copper/nickel flakes, nano gallium-indium particles and solvent to form monomer mixed solution, and heating the monomer mixed solution to a constant temperature and adding initiator, and taking the sample, dehydrating the sample taken and drying to obtain an acrylate rubber doped with nano-copper/nickel sheets and nano- gallium-indium particles; and (iv) depositing graphene film on the surface of the acrylate rubber doped with the nano-copper/nickel sheet and the nano-gallium-indium particles by a plasma enhanced vapor deposition method. DESCRIPTION OF DRAWING(S) - The drawing shows a schematic representation of the structure diagram of doping of graphene nano sheet copper and nano gallium-indium particles of acrylic rubber.