▎ 摘　　要

NOVELTY - The method involves coating a metal nano-wire film. A mask is covered in a variable order. The metal nano-wire film corresponding to the hollow area of the mask is combined with a graphene oxide layer, and/or the metal nano-wire film corresponding to the area covered by the mask is combined with the graphene oxide layer. A flexible substrate is used (S6) that is adhered to the surface, a metal nano-wire film combined with a graphene oxide layer is adhered, and peeled from rigid substrate or mask to obtain the flexible transparent conductive film with the pattern of the mask hollow area or the flexible transparent conductive film with the pattern of mask covering area. The metal nano-wire film is coated (S1) on a rigid substrate. The mask is covered (S2) on the metal nano-wire film. The substrate is selected from polyethylene terephthalate, polyethylene naphthalate, polyethylene, polyimide, poly-dimethyl-siloxane, polyvinyl alcohol, polyurethane or poly-methyl methyl acrylate. USE - Method for preparing flexible transparent conductive film. ADVANTAGE - The silver nano-wire thin film pattern can be selectively transferred from the rigid substrate to the flexible substrate, so that the preparation of the flexible transparent conductive film is realized, and the prepared flexible transparent conductive film has good pattern precision and photoelectric performance. DESCRIPTION OF DRAWING(S) - The drawing shows a flowchart illustrating the method for preparing flexible transparent conductive film. (Drawing includes non-English language text) Step for coating metal nano-wire film on a rigid substrate (S1) Step for covering mask on the metal nano-wire film (S2) Step for coating the graphene oxide dispersion on the surface of the metal nano-wire film left on the rigid substrate (S5) Step for using flexible substrate that is adhered to the surface, and adhering a metal nano-wire film combined with a graphene oxide layer (S6) Step for removing the mask (S312)