相关光微分光光度法和电子显微镜研究自组装二元纳米晶体超晶格中的可调谐等离子体耦合。

Tunable plasmonic coupling in self-assembled binary nanocrystal superlattices studied by correlated optical microspectrophotometry and electron microscopy.

机构信息

Department of Chemistry, University of Pennsylvania, Pennsylvania 19104, United States.

出版信息

Nano Lett. 2013 Mar 13;13(3):1291-7. doi: 10.1021/nl400052w. Epub 2013 Feb 25.

Abstract

We study the plasmonic properties of self-assembled binary nanocrystal superlattices (BNSLs) using correlated optical microspectrophotometry and electron microscopy performed on individual BNSL domains. The strength of near-field couplings between adjacent plasmonic nanocrystals (NCs) can be systematically engineered by varying the NC size, composition, and the lattice symmetry of BNSLs, leading to broadband spectral tunability of the collective plasmonic response of BNSLs across the entire visible spectrum. Self-assembled multicomponent NC superlattices represent a versatile platform for the rational design of macroscopic three-dimensional plasmonic metamaterials with emergent optical characteristics.

摘要

我们使用相关的光学微分光光度计和电子显微镜在单个 BNSL 域上进行研究，研究了自组装二元纳米晶体超晶格（BNSL）的等离子体特性。通过改变纳米晶体（NC）的尺寸、组成和 BNSL 的晶格对称性，可以系统地设计相邻等离子体 NC 之间的近场耦合强度，从而使 BNSL 的集体等离子体响应在整个可见光谱范围内具有宽带光谱可调谐性。自组装多组分 NC 超晶格为具有新兴光学特性的宏观三维等离子体超材料的合理设计提供了一个多功能平台。

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相关光微分光光度法和电子显微镜研究自组装二元纳米晶体超晶格中的可调谐等离子体耦合。

Tunable plasmonic coupling in self-assembled binary nanocrystal superlattices studied by correlated optical microspectrophotometry and electron microscopy.

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