▎ 摘　　要

NOVELTY - A one-dimensional conductive nanomaterial-based conductive film has substrate, one-dimensional conductive nanomaterial layer formed on substrate, and two-dimensional nanomaterial layer formed on one-dimensional conductive nanomaterial layer. The one-dimensional conductive nanomaterial layer includes one-dimensional conductive nanomaterial containing carbon nanotube and/or metal nanorod. The two-dimensional nanomaterial layer includes two-dimensional nanomaterial containing graphene, boron nitride, tungsten oxide, molybdenum sulfide, tantalum diselenide and/or manganese dioxide. USE - One-dimensional conductive nanomaterial-based conductive film. Uses include but are not limited to light-emitting diode, plasma-display panel, liquid crystal display device, organic electroluminescent device, touch panel, solar cell, freezing showcase, smart window, automobile window glass, glass pane of building, etc. ADVANTAGE - The one-dimensional conductive nanomaterial film has improved conductivity. DETAILED DESCRIPTION - A one-dimensional conductive nanomaterial-based conductive film having conductivity enhanced by a two-dimensional nanomaterial, has a substrate, a one-dimensional conductive nanomaterial layer formed on the substrate, and a two-dimensional nanomaterial layer formed on the one-dimensional conductive nanomaterial layer. The one-dimensional conductive nanomaterial layer includes a one-dimensional conductive nanomaterial containing a carbon nanotube, a metal nanowire and/or a metal nanorod. The two-dimensional nanomaterial layer includes a two-dimensional nanomaterial formed using graphene, boron nitride, tungsten oxide, molybdenum sulfide, molybdenum telluride, niobium diselenide, tantalum diselenide and/or manganese dioxide.