Color filter substrate, liquid crystal display panel and dispersing method of monocolor quantum dots

The invention claimed is: 1. A color filter substrate comprising: a base substrate; a plurality of pixels provided on the base substrate, each comprised of a plurality of sub-pixels of different colors; and a layered structure containing monocolor quantum dots disposed in areas corresponding to sub-pixels of at least one color of pixels, and the layered structure comprising an alternate lamination of flake graphene layers and monocolor quantum dot layers, wherein a bottom layer and a top layer of the layered structure are both flake graphene layers; and the monocolor quantum dots emit monochromatic light corresponding to a color of the sub-pixels after being excited. 2. The color filter substrate of claim 1 , further comprising a protection layer covering the layered structure. 3. A liquid crystal display panel comprising: a color filter substrate, an array substrate and a liquid crystal layer interposed between the color filter substrate and the array substrate, wherein the color filter substrate is the color filter substrate of claim 1 . 4. The liquid crystal display panel of claim 3 , further comprising: a lower polarization sheet on one side of the array substrate opposite to the liquid crystal layer and an upper polarization sheet on one side of the layered structure facing the liquid crystal layer in the color filter substrate. 5. The liquid crystal display panel of claim 4 , further comprising: a backlight module on one side of the array substrate opposite to the liquid crystal layer. 6. The liquid crystal display panel of claim 5 , wherein the backlight module emits blue light or ultraviolet light. 7. The liquid crystal display panel of claim 3 , further comprising: a backlight module on one side of the array substrate opposite to the liquid crystal layer. 8. The liquid crystal display panel of claim 7 , wherein the backlight module emits blue light or ultraviolet light. 9. A display device comprising the liquid crystal display panel of claim 3 . 10. A method of manufacturing the color filter substrate of claim 1 , comprising a dispersing method of monocolor quantum dots, wherein the dispersing method of monocolor quantum dots comprises: Step 1: forming a flake graphene layer on a base substrate; Step 2: forming a monocolor quantum dot layer comprising monocolor quantum dots on the first flake graphene layer with transfer method; Step 3: repeating step 1 and step 2 on the monocolor quantum dot layer to form a layered structure comprising an alternate lamination of flake graphene layers and monocolor quantum dot layers; and Step 4: forming another flake graphene layer on the layered structure as a top layer. 11. The method of manufacturing the color filter substrate of claim 10 , wherein forming of the flake graphene layer comprises: mixing graphene powder, ethyl cellulose and organic solvent to obtain a mixture solution; coating the mixture solution onto the base substrate or the monocolor quantum dot layer; and removing the organic solvent and ethyl cellulose in the mixture solution by drying to obtain the flake graphene layer. 12. The method of manufacturing the color filter substrate of claim 11 , wherein the graphene powder accounts for 1%-10% mass percent with respect to the ethyl cellulose; a sum of the graphene powder and the ethyl cellulose accounts for 20%-50% mass percent with respect to the organic solvent. 13. The method of manufacturing the color filter substrate of claim 11 , wherein the organic solvent is ethanol. 14. The method of manufacturing the color filter substrate of claim 10 , wherein forming of the monocolor quantum dots on the flake graphene layer comprises: dipping a transfer print plate in the monocolor quantum dot solution; performing transfer printing with the transfer print plate carrying monocolor quantum dot solution on the flake graphene layer of the base substrate; and drying the monocolor quantum dot solution on the flake graphene layer to obtain the pattern of monocolor quantum dot layer formed on the flake graphene layer.