双态DNA模板化染料聚集体系统中的相干激子离域

Coherent Exciton Delocalization in a Two-State DNA-Templated Dye Aggregate System.

作者信息

Cannon Brittany L, Kellis Donald L, Patten Lance K, Davis Paul H, Lee Jeunghoon, Graugnard Elton, Yurke Bernard, Knowlton William B

机构信息

Micron School of Materials Science & Engineering, ‡Department of Chemistry & Biochemistry, and §Department of Electrical & Computer Engineering, Boise State University , Boise, Idaho 83725, United States.

出版信息

J Phys Chem A. 2017 Sep 21;121(37):6905-6916. doi: 10.1021/acs.jpca.7b04344. Epub 2017 Sep 6.

DOI:10.1021/acs.jpca.7b04344

PMID:28813152

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC6705113/

Abstract

Coherent exciton delocalization in dye aggregate systems gives rise to a variety of intriguing optical phenomena, including J- and H-aggregate behavior and Davydov splitting. Systems that exhibit coherent exciton delocalization at room temperature are of interest for the development of artificial light-harvesting devices, colorimetric detection schemes, and quantum computers. Here, we report on a simple dye system templated by DNA that exhibits tunable optical properties. At low salt and DNA concentrations, a DNA duplex with two internally functionalized Cy5 dyes (i.e., dimer) persists and displays predominantly J-aggregate behavior. Increasing the salt and/or DNA concentrations was found to promote coupling between two of the DNA duplexes via branch migration, thus forming a four-armed junction (i.e., tetramer) with H-aggregate behavior. This H-tetramer aggregate exhibits a surprisingly large Davydov splitting in its absorbance spectrum that produces a visible color change of the solution from cyan to violet and gives clear evidence of coherent exciton delocalization.

摘要

染料聚集体系统中的相干激子离域会引发各种有趣的光学现象，包括J-聚集体和H-聚集体行为以及达维多夫分裂。在室温下表现出相干激子离域的系统对于人工光捕获装置、比色检测方案和量子计算机的开发具有重要意义。在此，我们报道了一种由DNA模板化的简单染料系统，该系统具有可调谐的光学性质。在低盐和低DNA浓度下，含有两个内部功能化的Cy5染料的DNA双链体（即二聚体）持续存在，并主要表现出J-聚集体行为。发现增加盐和/或DNA浓度会通过分支迁移促进两个DNA双链体之间的耦合，从而形成具有H-聚集体行为的四臂连接体（即四聚体）。这种H-四聚体聚集体在其吸收光谱中表现出惊人的大达维多夫分裂，使溶液的颜色从青色变为紫色，并清楚地证明了相干激子离域。

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