The structural color of Morpho butterflies has some amazing characteristics. It can reflect a single color in a wide angular range while maintaining high reflectivity. Additionally, it has a metallic luster despite being composed of non-metallic materials. There has been a lot of research on the structural color, but very few of them have focused on its reproduction and application. This thesis focuses on the research of the reproduction of the structural color on the Morpho butterflies’ scales. By substituting polymers for and on the multi-film material used to fabricate the micro-structural, it is expected to reproduce the same structural color as found in the Morpho butterfly. This research applies “discrete multilayer microstructure” (designed by Akira Satio et al) in the experiment, and uses spin coating to produce a polymer multilayer. After the product is completed, the spectrophotometer is utilized to survey the reflected wavelength of the color. The result shows that by using spin coating to produce a polymer multilayer and controlling the thickness of film on the multilayer, the product achieves the structural color characteristic of Morpho butterflies. Changing the thickness of the film will simply change the color reflected by the product, but the combination of the wavelength will be restricted within the wavelength curve of the multilayer interference. This thesis proves that by using polymer material in this microstructure can reproduce structural color. It’s much easier and more convenient to control and apply structural color without needing a lot of capitalized cost on manufacturing. Although the structural strength of the film is weak and the combination of the wavelength is restricted, the material is more easily processed. Therefore, there will be more possible variations in conjunction with other processing technology.