▎ 摘　　要

NOVELTY - The heating layer has a heating component connected with a graphene (3). The heating component is conductive to the graphene. The graphene is deiced and demisted by heating way. The heating component comprises an electrode (4) and a lead. The electrode is set on two sides of the graphene. The lead is fixedly connected with a tail end of the electrode. Thickness of a single layer of the graphene is 0.34nm. USE - Graphene based high-penetration and demisting heating layer for deicing and demisting a visual window of an artificial intelligence device. ADVANTAGE - The heating layer can be cut into various shapes of base materials, and has low energy consumption, and achieves anti-fog effect by using only 3W power. The heating layer has high heat efficiency, and can quickly heat the device visual window, so that the ice on the window is quickly melted and evaporated, and the fog is quickly dissipated. The heating layer has high transmittance. The 97.7 percent of full band transmission rate does not affect the scanning and sensing effect, thus keeping sensitive and high definition. DESCRIPTION OF DRAWING(S) - The drawing shows a schematic diagram of a graphene based high-penetration and demisting heating layer for deicing and demisting a visual window of an artificial intelligence device. 1Base material 2Optical glue 3Graphene 4Electrode