Login / Signup

High-Contrast Dynamic Reflecting System Based on Pneumatic Micro/Nanoscale Surface Morphing.

Yang ShenQiushun ZouBo WanXiaoyi SheRunzhi YouYi LuoChongjun Jin
Published in: ACS applied materials & interfaces (2020)
Cephalopods offer a fascinating dynamic reflecting system to create desired colors and patterns through contracting and releasing their soft skins in response to environmental stimuli. Inspired by this natural display strategy, we designed a novel dynamic reflecting system based on pneumatic micro/nanoscale surface morphing. This system consists of a thin metal skin/elastomer bilayer modulated by a microfluidic-based gas injector. Benefited from the "wrinkled-specular" transition of the metal's surface under a small pneumatic actuation (4 kPa), an unprecedented reflectance contrast of 93 for broad-band (500-750 nm) modulation is achieved. This remarkable response also has excellent cycle stability (>2500 times) and fast response time (∼0.2 s). These advantages enable a robust and ultrasensitive optical gas pressure sensor with a sensitivity of 178 kPa-1, which is 3-4 orders of magnitude higher than those of conventional optical gas pressure sensors based on either a Fabry-Pérot interferometer or a Mach-Zehnder interferometer. Moreover, as proof-of-concept applications, we also experimentally demonstrated a curvature-variable convex mirror and noniridescent dynamic display, suggesting that our pneumatically dynamic reflecting system will potentially broaden the applications in adaptive optical devices, sensors, and displays.
Keyphrases