Bioinspired Color Elastomers Combining Structural, Dye, and Background Colors

Organisms that alter body color undergo color change in response to environmental variations and stimuli by combining chromatophores that develop colors by various mechanisms. Inspired by their body color changes, we can develop sensors and optical materials that change colors in response to multiple stimuli, such as mechanical and light stimuli. In this study, we report on bioinspired composite elastomers that exhibit various color changes as the pigment color, structural color, and background color change. These composite elastomers exhibit structural colors due to their fine structures in which fine silica particles form colloidal crystals, and the structural colors reversibly change as the elastomers elongate. Furthermore, photochromic dyes can reversibly change color depending on the wavelength of irradiated light when they are introduced to the composite elastomers. Since the structural color is one of the three primary colors of light and the pigment color is the color that corresponds to the three primary colors of a pigment, each color becomes vivid when the background color is black or white. Thus, we clarify that the composite elastomers exhibit various color changes due to the combination of structural color change in response to the mechanical stimulus, pigment color change in response to light irradiation, and background color change.

Automated summary

Organisms that alter body color change according to environmental variations and stimuli by combining chromatophores. Inspired by this, bioinspired composite elastomers exhibit various color changes due to pigment color, structural color, and background color changes. The structural colors in the elastomers come from fine silica particles forming colloidal crystals, and can reversibly change as the material elongates. Additionally, the introduction of photochromic dyes allows for reversible color changes depending on the wavelength of irradiated light.