BODIPY-细菌叶绿素能量转移阵列：用于具有宽可调谐、多吸收带的近红外发射器。

BODIPY-Bacteriochlorin Energy Transfer Arrays: Toward Near-IR Emitters with Broadly Tunable, Multiple Absorption Bands.

机构信息

Department of Chemistry and Biochemistry, University of Maryland, Baltimore County , 1000 Hilltop Circle, Baltimore, Maryland 21250, United States.

出版信息

J Org Chem. 2017 Dec 15;82(24):13068-13075. doi: 10.1021/acs.joc.7b02031. Epub 2017 Nov 22.

DOI:10.1021/acs.joc.7b02031

PMID:29119786

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5873296/

Abstract

A series of energy transfer arrays, comprising a near-IR absorbing and emitting bacteriochlorin, and BODIPY derivatives with different absorption bands in the visible region (503-668 nm) have been synthesized. Absorption band of BODIPY was tuned by installation of 0, 1, or 2 styryl substituents [2-(2,4,6-trimethoxyphenyl)ethenyl], which leads to derivatives with absorption maxima at 503, 587, and 668 nm, respectively. Efficient energy transfer (>0.90) is observed for each dyad, which is manifested by nearly exclusive emission from bacteriochlorin moiety upon BODIPY excitation. Fluorescence quantum yield of each dyad in nonpolar solvent (toluene) is comparable with that observed for corresponding bacteriochlorin monomer, and is significantly reduced in solvent of high dielectric constants (DMF), most likely by photoinduced electron transfer. Given the availability of diverse BODIPY derivatives, with absorption between 500-700 nm, BODIPY-bacteriochlorin arrays should allow for construction of near-IR emitting agents with multiple and broadly tunable absorption bands. Solvent-dielectric constant dependence of Φ in dyads gives an opportunity to construct environmentally sensitive fluorophores and probes.

摘要

一系列能量转移阵列由近红外吸收和发射细菌叶绿素和 BODIPY 衍生物组成，它们在可见区域（503-668nm）具有不同的吸收带。通过安装 0、1 或 2 个苯乙烯取代基[2-（2,4,6-三甲氧基苯基）乙烯基]来调节 BODIPY 的吸收带，分别导致吸收最大值在 503、587 和 668nm 的衍生物。每个偶联物都观察到高效能量转移（>0.90），这表现为在 BODIPY 激发时几乎仅从细菌叶绿素部分发出荧光。每个偶联物在非极性溶剂（甲苯）中的荧光量子产率与相应细菌叶绿素单体观察到的荧光量子产率相当，而在高介电常数溶剂（DMF）中显著降低，这很可能是由光诱导电子转移引起的。鉴于具有 500-700nm 之间吸收的各种 BODIPY 衍生物的可用性，BODIPY-细菌叶绿素阵列应该允许构建具有多个和广泛可调吸收带的近红外发射剂。偶联物中Φ的溶剂介电常数依赖性为构建环境敏感荧光团和探针提供了机会。

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