Plasmonic nano-color coating layer and method for fabricating the same

What is claimed is: 1. A plasmonic nano-color coating layer, comprising: a composite layer comprising a plurality of metal particle layers and a plurality of matrix layers and having a periodic multilayer structure in which the metal particle layers and the matrix layers are alternately arranged; a dielectric buffer layer located below the composite layer; and a mirror layer located below the dielectric buffer layer, wherein the color of the plasmonic nano-color coating layer is determined based on a nominal thickness of the metal particle layer and a separation between the metal particle layers. 2. The plasmonic nano-color coating layer according to claim 1 , wherein the chroma of the color of the coating layer is proportional to the number of the metal particle layers. 3. The plasmonic nano-color coating layer according to claim 1 , wherein the thickness of the matrix layer is 1 nm to 30 nm. 4. The plasmonic nano-color coating layer according to claim 3 , wherein the thickness of the matrix layer is 1 nm to 20 nm. 5. The plasmonic nano-color coating layer according to claim 1 , wherein the thickness of the dielectric buffer layer is 1 nm to 30 nm. 6. The plasmonic nano-color coating layer according to claim 5 , wherein the thickness of the dielectric buffer layer is 1 nm to 20 nm. 7. The plasmonic nano-color coating layer according to claim 1 , further comprising a base body below the mirror layer, wherein the base body is surface-treated to give a diffuse reflection. 8. The plasmonic nano-color coating layer according to claim 1 , wherein the materials of the matrix layer and the dielectric buffer layer are active materials which respond to an external stimulation or environmental change. 9. The plasmonic nano-color coating layer according to claim 1 , wherein the material of the mirror layer is a white metal, a colored metal, Al—N, Ti—N, Zr—N, Ta—N based nitride, Ti—C, W—C, Zr—C based carbide, a compound thereof or a mixture thereof. 10. The plasmonic nano-color coating layer according to claim 1 , wherein the material of the dielectric buffer layer is optically transparent. 11. The plasmonic nano-color coating layer according to claim 1 , further comprising a protective layer located on the composite layer, wherein the material of the protective layer is optically transparent. 12. The plasmonic nano-color coating layer according to claim 1 , further comprising: a base body located below the mirror layer; a protective layer located on the composite layer; and at least one adhesion layer formed on an interface of the base body and the mirror layer, an interface of the mirror layer and the dielectric buffer layer or an interface of the composite layer and the protective layer, wherein the adhesion layer is made of transition metal, nitride or oxide. 13. The plasmonic nano-color coating layer according to claim 1 , further comprising a base body below the mirror layer, wherein the base body is an aluminum flake used as a metallic effect pigment of paint. 14. A method for forming a plasmonic nano-color coating layer, comprising: forming a mirror layer on a base body to be colored; forming a dielectric buffer layer on the mirror layer; and forming a composite layer on the dielectric buffer layer, the composite layer including a plurality of metal particle layers and a plurality of matrix layers and having a periodic multilayer structure in which the metal particle layers and the matrix layers are alternately arranged, wherein a nominal thickness of the metal particle layer and a separation between the metal particle layers are determined based on the color to be realized. 15. The method for forming a plasmonic nano-color coating layer according to claim 14 , wherein the chroma of the color of the coating layer is proportional to the number of the metal particle layers. 16. The method for forming a plasmonic nano-color coating layer according to claim 14 , wherein the thickness of the matrix layer is 1 nm to 30 nm. 17. The method for forming a plasmonic nano-color coating layer according to claim 16 , wherein the thickness of the matrix layer is 1 nm to 20 nm. 18. The method for forming a plasmonic nano-color coating layer according to claim 14 , wherein the thickness of the dielectric buffer layer is 1 nm to 30 nm. 19. The method for forming a plasmonic nano-color coating layer according to claim 18 , wherein the thickness of the dielectric buffer layer is 1 nm to 20 nm. 20. The method for forming a plasmonic nano-color coating layer according to claim 14 , before said forming the mirror layer, further comprising: surface-treating the base body to give a diffuse reflection. 21. The method for forming a plasmonic nano-color coating layer according to claim 14 , wherein the materials of the matrix layer and the dielectric buffer layer are active materials which respond to an external stimulation or environmental change. 22. The method for forming a plasmonic nano-color coating layer according to claim 14 , wherein the material of the mirror layer is a white metal, a colored metal, Al—N, Ti—N, Zr—N, Ta—N based nitride, Ti—C, W—C, Zr—C based carbide, a compound thereof or a mixture thereof. 23. The method for forming a plasmonic nano-color coating layer according to claim 14 , wherein the material of the dielectric buffer layer is optically transparent. 24. The method for forming a plasmonic nano-color coating layer according to claim 14 , further comprising: forming a protective layer on the composite layer, wherein the material of the protective layer is optically transparent. 25. The method for forming a plasmonic nano-color coating layer according to claim 14 , further comprising: forming a protective layer on the composite layer; and forming at least one adhesion layer on an interface of the base body and the mirror layer, an interface of the mirror layer and the dielectric buffer layer or an interface of the composite layer and the protective layer, wherein the adhesion layer is made of transition metal, nitride or oxide. 26. The method for forming a plasmonic nano-color coating layer according to claim 14 , wherein the base body is an aluminum flake used as a metallic effect pigment of paint.