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Zhou, Kang; Bisoyi, Hari Krishna; Jin, Jian‐Qiu; Yuan, Cong‐Long; Liu, Zhen; Shen, Dong; Lu, Yan‐Qing; Zheng, Zhi‐Gang; Zhang, Weian; Li, Quan
Advanced materials (Weinheim) 30, Številka: 26Journal Article
Self‐organized stimuli‐responsive smart materials with adjustable attributes are highly desirable for a plethora of device applications. Simple cubic lattice is quite uncommon in soft condensed matter due to its lower packing factor. Achieving a stable simple cubic soft lattice and endowing such a lattice with dynamic reconstruction capability solely by a facile light irradiation are of paramount significance for both fundamental studies and engineering explorations. Herein, an elegant stable self‐organized simple cubic soft lattice, i.e., blue phase II, in a chiral liquid crystal (LC) system is disclosed, which is stable down to room temperature and exhibits both reversible lattice deformation and transformation to a helical superstructure, i.e., cholesteric LC, by light stimulation. Such an amazing trait is attained by doping a judiciously designed achiral photoresponsive molecular switch functionalized polyhedral oligomeric silsesquioxane nanocage into a chiral LC host. An unprecedented reversible collapse and reconstruction of such a high symmetric simple cubic blue phase II driven by light has been achieved. Furthermore, a well‐defined conglomerate micropattern composed of simple cubic soft lattice and helical superstructure, which is challenging to fabricate in organic and inorganic crystalline materials, is produced using photomasking technology. Moreover, the promising photonic application based on such a micropattern is demonstrated. A reversible and dynamic transformation between a stable simple cubic lattice and a helical superstructure is achieved via light irradiation in a photoresponsive blue phase liquid crystal enabled by a molecular‐switch‐functionalized nanocage. Leveraging this capability, unprecedented light‐driven recording, erasing, and rewriting of well‐defined biphasic micropatterns are demonstrated and photonic applications of such micropatterns are explored.
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JCR | SNIP | JCR | SNIP | JCR | SNIP | JCR | SNIP |
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