铜离子诱导的芘基喹啉自组装及芘基准分子形成

Cu2+ ion-induced self-assembly of pyrenylquinoline with a pyrenyl excimer formation.

作者信息

Jung Hyo Sung, Park Mirae, Han Do Young, Kim Eunmi, Lee Chewook, Ham Sihyun, Kim Jong Seung

机构信息

Department of Chemistry, Korea University, Seoul 136-701, Korea.

出版信息

Org Lett. 2009 Aug 6;11(15):3378-81. doi: 10.1021/ol901221q.

DOI:10.1021/ol901221q

PMID:19719186

Abstract

Synthesis of a novel pyrene derivative sensor (1) and its intermolecular binding pattern to Cu(2+) in CH(3)CN were investigated. Upon Cu(2+) binding, the sensor exhibited a strong static excimer emission at 460 nm, along with a weak monomer emission at 388 nm. The excimer emission intensity induced by the Cu(2+) ion declined as the spacer length between the pyrene and quinolinylamide unit increased. The Cu(2+) ion-induced self-assembled pyrenyl excimer formation is rationalized by fluorescence experiments and theoretical DFT calculations.

摘要

研究了一种新型芘衍生物传感器（1）的合成及其在乙腈中与Cu(2+)的分子间结合模式。与Cu(2+)结合后，该传感器在460 nm处表现出强烈的静态准分子发射，同时在388 nm处有较弱的单体发射。随着芘与喹啉酰胺单元之间间隔长度的增加，由Cu(2+)离子诱导的准分子发射强度下降。通过荧光实验和理论DFT计算对Cu(2+)离子诱导的自组装芘基准分子形成进行了合理的解释。

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铜离子诱导的芘基喹啉自组装及芘基准分子形成

Cu2+ ion-induced self-assembly of pyrenylquinoline with a pyrenyl excimer formation.

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