Bioinspired Dynamic Camouflage from Colloidal Nanocrystals Embedded Electrochromics

Camouflage is often seen in animals, and it presents in both passive and active forms. For instance, the wings of Closterocerus cof feellae exhibit distinct appearances against different backgrounds, while the chameleon actively changes its skin colors to morph into the environment. Herein, we report an artificial skin-like optoelectronic device that enables actively changing appearances and passively morphing into the environment by manipulating light-matter interactions with electrochromic polymers and photonic colloid nanocrystals. To construct the new electrochromic device, highly reflective, yet transmissive photonic nanocrystals are introduced into the gel electrolyte and sandwiched between the layers of electrochromic polymers and ion storage materials. Through voltage-controlled color switching of electrochromic polymers from colored state to bleached state, the degree of light absorbance, transmittance, and reflectance can be finely balanced and precisely modulated with the device. A broad synthesized color gamut and angle-dependent visual effects can be realized on this electronic skin-like device.

Automated summary

The article introduces an artificial skin-like optoelectronic device that can actively change appearances and passively morph into the environment by manipulating light-matter interactions. By controlling the color switching of electrochromic polymers, the device can finely balance light absorbance, transmittance, and reflectance, achieving a wide color gamut and angle-dependent visual effects.