ESIPT-Inspired Fluorescent Turn-On Sensitivity Towards Aluminium (III) Detection by Derivatives of O- and S-Bridged Bis-(Phenol-Imine) Molecules

Computational Materials Science eJournal Pub Date : 2021-01-01 DOI:10.2139/ssrn.3880392

Raymond Akong Akong, H. Görls, J. Woods, W. Plass, A. O. Eseola

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引用次数: 1

Abstract

The need to explore possible benefits of molecular substituent derivatization on fluorescent chemosensor properties motivated the syntheses of six potentially pentadentate bis-(phenol-imine) fluorophores, which consist of five S-bridged O^N^S^N^O scaffolds 1 – 5 and an O-bridged O^N^O^N^O scaffold 6 . The deliberate incorporation of multiple intramolecular N … H–O donor-acceptor functions into the molecules helped to achieve Excited State Intramolecular Proton-electron Transfer (ESIPT) capability as well as the possession of low quantum yields in their ligand-only solutions. Interestingly, while the low quantum yield molecules 1 , 2 , 3 and 6 lacked the expected large Stokes shifted ESIPT fluorescence in their ligand-only solutions, they utilize the same ESIPT-oriented process to achieve varying extents of substituent-dependent fluorescent turn-on that produced sensitive and selective Al 3+ detection. In particular, while molecules 1 and 3 gave dual-band fluorescence turn-on from both primary and secondary photoexcited states, the O-bridged ligand 6 is strongly turned on only at the large Stokes shifted ESIPT emission wavelength. Thus, with a 528-fold F / F o turn-on ratio and a detection limit of 5.48 × 10 -9 M, the efficiency of molecule 6 as chemosensor towards Al 3+ detection can be considered to be outstanding. Based on results of Job plot experiment, fluorescent intensities during Al 3+ titration, single crystal structural data and 1 H-NMR spectral analyses, we conclude that a 1:1 sensor-to-analyte stoichiometry is at play in the Al 3+ sensing mechanism and that the sensor molecules form an unusual bidentate O^O coordination with the analyte as neutral iminium zwitterion. It could be concluded that synthetic designs leading to systematic substituent variation is a beneficial tool for tuning and isolating applicable molecular chemosensor species.

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用O-和s-桥接双-(苯酚-亚胺)分子衍生物检测铝(III)的esipt启发的荧光开启灵敏度

为了探索分子取代基衍生化对荧光化学传感器性能可能带来的好处，我们合成了六个潜在的五齿二(酚亚胺)荧光团，其中包括五个S-桥接的O^N^S^N^O支架1 - 5和一个O-桥接的O^N^O^N^O支架6。有意将多个分子内N…H-O供体-受体功能结合到分子中，有助于实现激发态分子内质子-电子转移(ESIPT)能力，以及在仅配体溶液中具有低量子产率。有趣的是，虽然低量子产率分子1、2、3和6在其仅配体溶液中缺乏预期的大Stokes位移ESIPT荧光，但它们利用相同的esip导向过程来实现不同程度的取代基依赖性荧光开启，从而产生敏感和选择性的Al 3+检测。特别是，分子1和分子3在初级和二级光激发态下都具有双带荧光开启，而o桥配体6仅在大Stokes位移ESIPT发射波长下才被强烈开启。因此，具有528倍的F / F / o开启比和5.48 × 10 -9 M的检测限，分子6作为化学传感器对Al 3+的检测效率可以被认为是杰出的。基于Job plot实验结果、Al - 3+滴定时的荧光强度、单晶结构数据和1h - nmr光谱分析，我们得出结论:在Al - 3+传感机制中，传感器分子与被分析物形成了1:1的化学计量，并且传感器分子与被分析物形成了一种不同寻常的双齿O^O配位，作为中性的铝两性离子。由此可见，导致系统取代基变化的合成设计是调整和分离适用分子化学传感器物种的有益工具。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Computational Materials Science eJournal

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