Voltage-tunable elastomer composites that use shape instabilities for rapid structural color changes

Structurally colored materials can switch colors in response to external stimuli, which makes them potentially useful as colorimetric sensors, dynamic displays, and camouflage. However, their applications are limited by the angular dependence, slow response, and absence of synchronous control in time and space. In addition, out-of-plane deformation from shape instability easily occurs in photonic films, leading to inhomogeneous colors in photonic-crystal materials. To address these challenges, we combine structurally colored photonic glasses and dielectric elastomer actuators. We use an external voltage signal to tune color changes quickly (much less than 0.1 s). The photonic glassses produce colors with low angular dependence, so that their colors are homogeneous even when they become curved due to voltage-triggered instabilities (buckling or wrinkling). As proof of concept, we present a pixelated display in which segments can be independently and rapidly turned on and off. This wide-angle, instability-tolerant, color-changing platform could be used in next-generation soft and curved color displays, camouflage with both shape and color changes, and multifunctional sensors.

Automated summary

Structurally colored materials have the potential to switch colors in response to external stimuli, making them useful in various applications. However, their use is restricted by angular dependence, slow response, and lack of synchronous control. To address these challenges, the combination of structurally colored photonic glasses and elastomer actuators provides a solution with quick color changes and instability tolerance. This platform can be applied in soft and curved color displays, camouflage, and multifunctional sensors.