重氟化镧系三β-二酮酸膦氧化物加合物的光学性质

Adam N. Swinburne, Madeleine H. Langford Paden, T. Chan, S. Randall, F. Ortu, A. Kenwright, L. Natrajan
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引用次数: 18

摘要

构建具有优异光物理性能的镧系(III)螯合物在生物和材料科学中具有重要意义。增加镧系(III)螯合物发光特性的一种策略是通过螯合配体的全氟化来阻碍竞争性非辐射衰变过程。本文通过简单的一锅反应合成了两类含单齿全氟三苯基氧化膦配体的重氟镧系(III) β-二酮酸配合物[Ln(hfac)3{(ArF)3PO}(H2O)]和[Ln(F7-acac)3{(ArF)3PO}2](其中Ln = Sm3+, Eu3+, Tb3+, Er3+和Yb3+)。单晶x射线衍射分析结合光物理研究,探讨了造成配合物发光寿命和本征量子产率差异的因素。取代配体主链中结合的H2O和C-H振荡子对配合物的光物理性质有显著影响,特别是对近红外发射离子Yb3+,其发光寿命和量子产率增加了五倍。配合物[Sm(hfac)3{(ArF)3PO}(H2O)](1)、[Yb(hfac)3{(ArF)3PO}(H2O)](5)、[Sm(F7-acac)3{(ArF)3PO}2](6)和[Yb(F7-acac)3{(ArF)3PO}2](10)在流体溶液中表现出异常长的发光寿命和吸引人的发射本质量子产率(ΦLn = 3.4% (1);1.4%(10))和固态(ΦLn = 8.5% (1);(5) 2.0%;(6) 26%;11%(10)),这是迄今为止这类化合物的最大数值之一。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Optical Properties of Heavily Fluorinated Lanthanide Tris β-Diketonate Phosphine Oxide Adducts
The construction of lanthanide(III) chelates that exhibit superior photophysical properties holds great importance in biological and materials science. One strategy to increase the luminescence properties of lanthanide(III) chelates is to hinder competitive non-radiative decay processes through perfluorination of the chelating ligands. Here, the synthesis of two families of heavily fluorinated lanthanide(III) β-diketonate complexes bearing monodentate perfluorinated tris phenyl phosphine oxide ligands have been prepared through a facile one pot reaction [Ln(hfac)3{(ArF)3PO}(H2O)] and [Ln(F7-acac)3{(ArF)3PO}2] (where Ln = Sm3+, Eu3+, Tb3+, Er3+ and Yb3+). Single crystal X-ray diffraction analysis in combination with photophysical studies have been performed to investigate the factors responsible for the differences in the luminescence lifetimes and intrinsic quantum yields of the complexes. Replacement of both bound H2O and C–H oscillators in the ligand backbone has a dramatic effect on the photophysical properties of the complexes, particularly for the near infra-red emitting ion Yb3+, where a five fold increase in luminescence lifetime and quantum yield is observed. The complexes [Sm(hfac)3{(ArF)3PO}(H2O)] (1), [Yb(hfac)3{(ArF)3PO}(H2O)] (5), [Sm(F7-acac)3{(ArF)3PO}2] (6) and [Yb(F7-acac)3{(ArF)3PO}2] (10) exhibit unusually long luminescence lifetimes and attractive intrinsic quantum yields of emission in fluid solution (ΦLn = 3.4% (1); 1.4% (10)) and in the solid state (ΦLn = 8.5% (1); 2.0% (5); 26% (6); 11% (10)), which are amongst the largest values for this class of compounds to date.
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