共查询到20条相似文献,搜索用时 15 毫秒
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Ewelina Tomczyk Aleksander Promiski Maciej Bagiski Ewa Grecka Micha Wjcik 《Small (Weinheim an der Bergstrasse, Germany)》2019,15(37)
Robust synthesis of large‐scale self‐assembled nanostructures with long‐range organization and a prominent response to external stimuli is critical to their application in functional plasmonics. Here, the first example of a material made of liquid crystalline nanoparticles which exhibits UV‐light responsive surface plasmon resonance in a condensed state is presented. To obtain the material, metal cores are grafted with two types of organic ligands. A promesogenic derivative softens the system and induces rich liquid crystal phase polymorphism. Second, an azobenzene derivative endows nanoparticles with photoresponsive properties. It is shown that nanoparticles covered with a mixture of these ligands assemble into long‐range ordered structures which exhibit a novel dual‐responsivity. The structure and plasmonic properties of the assemblies can be controlled by a change in temperature as well as by UV‐light irradiation. These results present an efficient way to obtain bulk quantities of self‐assembled nanostructured materials with stability that is unattainable by alternative methods such as matrix‐assisted or DNA‐mediated organization. 相似文献
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Liquid‐Crystalline Elastomers: High‐Resolution 3D Direct Laser Writing for Liquid‐Crystalline Elastomer Microstructures (Adv. Mater. 15/2014) 下载免费PDF全文
Hao Zeng Daniele Martella Piotr Wasylczyk Giacomo Cerretti Jean‐Christophe Gomez Lavocat Chih‐Hua Ho Camilla Parmeggiani Diederik Sybolt Wiersma 《Advanced materials (Deerfield Beach, Fla.)》2014,26(15):2285-2285
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Liquid‐Crystalline Dynamic Networks Doped with Gold Nanorods Showing Enhanced Photocontrol of Actuation 下载免费PDF全文
Xili Lu Hu Zhang Guoxia Fei Bing Yu Xia Tong Hesheng Xia Yue Zhao 《Advanced materials (Deerfield Beach, Fla.)》2018,30(14)
A near‐infrared‐light (NIR)‐ and UV‐light‐responsive polymer nanocomposite is synthesized by doping polymer‐grafted gold nanorods into azobenzene liquid‐crystalline dynamic networks (AuNR‐ALCNs). The effects of the two different photoresponsive mechanisms, i.e., the photochemical reaction of azobenzene and the photothermal effect from the surface plasmon resonance of the AuNRs, are investigated by monitoring both the NIR‐ and UV‐light‐induced contraction forces of the oriented AuNR‐ALCNs. By taking advantage of the material's easy processability, bilayer‐structured actuators can be fabricated to display photocontrollable bending/unbending directions, as well as localized actuations through programmed alignment of azobenzene mesogens in selected regions. Versatile and complex motions enabled by the enhanced photocontrol of actuation are demonstrated, including plastic “athletes” that can execute light‐controlled push‐ups or sit‐ups, and a light‐driven caterpillar‐inspired walker that can crawl forward on a ratcheted substrate at a speed of about 13 mm min‐1. Moreover, the photomechanical effects arising from the two types of light‐triggered molecular motion, i.e., the trans–cis photoisomerization and a liquid‐crystalline–isotropic phase transition of the azobenzene mesogens, are added up to design a polymer “crane” that is capable of performing light‐controlled, robot‐like, concerted macroscopic motions including grasping, lifting up, lowering down, and releasing an object. 相似文献
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