▎ 摘　　要

NOVELTY - A fluorescent conductive nano composite material comprises 30-45 pts. wt., preferably 37 pts. wt. epoxy resin, 10-15 pts. wt., preferably 13 pts. wt. silicone rubber, 10-15 pts. wt., preferably 13 pts. wt. right-handed polylactic acid type polyurethane elastomer, 5-10 pts. wt., preferably 7 pts. wt. nanocrystalline cellulose particles, 2-8 pts. wt., preferably 5 pts. wt. europium and ytterbium ion-doped fluorescent powder, 3-8 pts. wt., preferably 6 pts. wt. vapor phase growth carbon fiber, 2-6 pts. wt., preferably 4 pts. wt. carbon nanotubes, 1-5 pts. wt., preferably 3 pts. wt. graphene, 3-7 pts. wt., preferably 5 pts. wt. coupling agent, 3-6 pts. wt., preferably 5 pts. wt. silver nanoparticles, 1-3 pts. wt., preferably 2 pts. wt. antioxidant, 2-5 pts. wt., preferably 3.5 pts. wt. dispersant, 2-5 pts. wt., preferably 3.5 pts. wt. lithium titanate and 1-4 pts. wt., preferably 3 pts. wt. lubricant. USE - Fluorescent conductive nano composite material. ADVANTAGE - The fluorescent conductive nano composite material has high electrical conductivity and high fluorescent effect, and effectively converts high energy photons into near-infrared photons.