Mimicking Nature's Butterflies: Electrochromic Devices with Dual-Sided Differential Colorations

Some butterfly species such as the orange oakleaf (Kallima inachus) have strikingly different colors on the dorsal (front) sides of their wings compared to those on the ventral (back) sides of their wings, which helps camouflage the butterflies from predators and attract potential mates. However, few human-made materials, devices, and technologies can mimic such differential coloring for a long time. Here, a new type of Janus-structured two-sided electrochromic device is developed that, upon application of different voltages, exhibits a coloration state on one side that is distinctly different from that on the other side. This is achieved by inserting an optically thin (4-8 nm) metallic layer with a complex refractive index, such as a layer composed of tungsten, titanium, copper or silver, into typical electrochromic structures.

Automated summary

By studying the unique coloring of butterfly wings, a new type of Janus-structured two-sided electrochromic device has been developed, showing distinctly different colors on each side when different voltages are applied.