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优化双核发光镧系寡聚物的敏化过程:刚性芳香间隔基的选择。

Optimizing sensitization processes in dinuclear luminescent lanthanide oligomers: selection of rigid aromatic spacers.

机构信息

Department of Inorganic, Analytical and Applied Chemistry, University of Geneva, 30 quai E. Ansermet, CH-1211 Geneva 4, Switzerland.

出版信息

J Am Chem Soc. 2011 Oct 12;133(40):16219-34. doi: 10.1021/ja206806t. Epub 2011 Sep 20.

DOI:10.1021/ja206806t
PMID:21882836
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3196670/
Abstract

This work illustrates a simple approach for optimizing the lanthanide luminescence in molecular dinuclear lanthanide complexes and identifies a particular multidentate europium complex as the best candidate for further incorporation into polymeric materials. The central phenyl ring in the bis-tridentate model ligands L3–L5, which are substituted with neutral (X = H, L3), electron-withdrawing (X = F, L4), or electron-donating (X = OCH3, L5) groups, separates the 2,6-bis(benzimidazol-2-yl)pyridine binding units of linear oligomeric multi-tridentate ligand strands that are designed for the complexation of luminescent trivalent lanthanides, Ln(III). Reactions of L3–L5 with [Ln(hfac)3(diglyme)] (hfac– is the hexafluoroacetylacetonate anion) produce saturated single-stranded dumbbell-shaped complexes [Ln2(Lk)(hfac)6] (k = 3–5), in which the lanthanide ions of the two nine-coordinate neutral [N3Ln(hfac)3] units are separated by 12–14 Å. The thermodynamic affinities of [Ln(hfac)3] for the tridentate binding sites in L3–L5 are average (6.6 ≤ log(β(2,1)(Y,Lk)) ≤ 8.4) but still result in 15–30% dissociation at millimolar concentrations in acetonitrile. In addition to the empirical solubility trend found in organic solvents (L4 > L3 >> L5), which suggests that the 1,4-difluorophenyl spacer in L4 is preferable, we have developed a novel tool for deciphering the photophysical sensitization processes operating in [Eu2(Lk)(hfac)6]. A simple interpretation of the complete set of rate constants characterizing the energy migration mechanisms provides straightforward objective criteria for the selection of [Eu2(L4)(hfac)6] as the most promising building block.

摘要

这项工作说明了一种优化分子双核镧系元素配合物中镧系元素发光的简单方法,并确定了一种特殊的多齿铕配合物是进一步掺入聚合物材料的最佳候选物。在双三齿配体 L3-L5 的中心苯基环中,取代基为中性(X = H,L3)、吸电子(X = F,L4)或供电子(X = OCH3,L5),将线性寡聚多三齿配体链的 2,6-双(苯并咪唑-2-基)吡啶结合单元隔开,这些配体链设计用于镧系元素配合物的络合,Ln(III)。L3-L5 与[Ln(hfac)3(diglyme)](hfac-是六氟乙酰丙酮阴离子)反应生成饱和的单链哑铃形配合物[Ln2(Lk)(hfac)6](k = 3-5),其中两个九配位中性[N3Ln(hfac)3]单元的镧系离子通过 12-14 Å 隔开。[Ln(hfac)3]与 L3-L5 中三齿结合位点的热力学亲和力为平均(6.6≤log(β(2,1)(Y,Lk))≤8.4),但在乙腈中的毫摩尔浓度下仍有 15-30%的离解。除了在有机溶剂中发现的经验溶解度趋势(L4 > L3 >> L5),这表明 L4 中的 1,4-二氟苯间隔基是优选的,我们还开发了一种用于破译在[Eu2(Lk)(hfac)6]中操作的光物理敏化过程的新工具。对表征能量迁移机制的整套速率常数的简单解释为选择[Eu2(L4)(hfac)6]作为最有前途的构建块提供了直接的客观标准。

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