液晶金纳米颗粒组装体结构和等离子体性质的可逆切换

Reversible switching of structural and plasmonic properties of liquid-crystalline gold nanoparticle assemblies.

作者信息

Lewandowski W, Łojewska T, Szustakiewicz P, Mieczkowski J, Pociecha D

机构信息

Faculty of Chemistry, University of Warsaw, 1 Pasteura st., 02-093 Warsaw, Poland.

出版信息

Nanoscale. 2016 Feb 7;8(5):2656-63. doi: 10.1039/c5nr08406g.

DOI:10.1039/c5nr08406g

PMID:26758794

Abstract

Hybrid materials built of spherical gold nanoparticles with three different sizes covered with (pro)mesogenic molecules have been prepared. Small-angle X-ray diffraction studies showed that after thermal annealing most of the obtained materials formed long-range ordered assemblies. Variation of the (pro)mesogenic ligand architecture enabled us to achieve a switchable material, which could be reversibly reconfigured between 3D long-range ordered structures with tetragonal and face centred cubic symmetries. This structural reconfiguration induces changes to the plasmonic response of the material. This work demonstrates that it is possible to use LC-based self-assembling phenomena to prepare dynamic materials with structural properties important for the development of active plasmonic metamaterials.

摘要

已制备出由三种不同尺寸的球形金纳米颗粒构建而成且覆盖有（前）介晶分子的杂化材料。小角X射线衍射研究表明，经过热退火后，大多数所得材料形成了长程有序组装体。（前）介晶配体结构的变化使我们能够获得一种可切换材料，该材料可以在具有四方和面心立方对称性的3D长程有序结构之间可逆地重新配置。这种结构重新配置会引起材料等离子体响应的变化。这项工作表明，利用基于液晶的自组装现象来制备具有对活性等离子体超材料的发展至关重要的结构特性的动态材料是可行的。

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液晶金纳米颗粒组装体结构和等离子体性质的可逆切换

Reversible switching of structural and plasmonic properties of liquid-crystalline gold nanoparticle assemblies.

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