材料科学
弹性体
光子学
纳米技术
光电子学
稳健性(进化)
可扩展性
加密
聚合物
伪装
共价键
量子点
同质性(统计学)
自愈水凝胶
结构着色
光子晶体
光子上转换
光学材料
计算机科学
连接器
信息存储
全息术
作者
Jin Wang,Zhen‐Peng Song,Y T Li,Lin Li,Willie Forkpah Deleau,Changqing Ye,Yun Ma,Yan-Qing Lu,Bingxiang Li
摘要
Stimuli-responsive materials are pivotal for advanced photonics, yet achieving ones with multiple-dimensional manipulation and high robustness remains a challenge. Here, we present a shape-memory chiral photonic platform with multi-stimuli-responsiveness by sophisticatedly controlling the crosslinking chemistry and density of a triplet-triplet annihilation upconversion featured cholesteric elastomer. A thermally resettable shape memory effect on structural colors is induced by force in the elastomer with an oligomer-lowered crosslinking density, which also exhibits exceptional stretchability and enhanced optics, a remarkable 259 nm blueshift over 215% strain. The covalent incorporation of annihilators secures homogeneity and stability of the system. The material possesses programmable optical properties, including chirally, thermally, and mechanically regulated structural colors and photoactivated luminescence, enabling high-dimensional information encryption with accessibility to scalable spray-printing. This work provides a versatile material strategy for cutting-edge optical encryption and paves the way for next-generation wearable sensors, adaptive optical devices, and interactive camouflage technologies.
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