Wide-Gamut Plasmonic Color Palettes with Constant Subwavelength Resolution

Unlike dye-based colorants, for which dilution results in a decrease in color saturation, a reduction of nanostructure density in plasmonic prints could increase color saturation instead. This interesting observation can be explained by the absorption cross-section of the nanostructure being larger than its physical cross-section. In this paper, we demonstrate the correlation between absorption cross-section and nanostructure density and use it to realize saturated colors by fabricating metal–insulator–metal aluminum nanostructures that support gap-surface plasmons (GSPs). We obtained structures with absorption cross-sections that exceed 10 times their physical cross-sections. The large absorption cross-sections of the GSP structures herald a color-mixing scheme where nanostructures of different hues are combined within subpixels at a constant pitch. The pitch is chosen such that the total absorption cross-section of individual constituents of the cell occupies the unit size area. Using a constant pitch o...