A novel oligo(N,O-donor) fluorescent probe possessed the CHEF effect for identification of aluminum ions in the environment

IF 2.2 4区化学 Q2 Engineering Chemical Papers Pub Date : 2024-07-02 DOI:10.1007/s11696-024-03582-4

Yin-Xia Sun, Xiao-Xia Li, Lu-Lu Gan, Ming-Xia Du, Biao Zhao, Wen-Da Li, Jin-Guo Li, Wen-Kui Dong

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Abstract

An oligo(N,O-donor) fluorescent probe SAS with high selectivity for Al³⁺ in DMF: H₂O (V/V, 9:1) Tris–HCl solution was designed and synthesized. That is to say, the increase of Al³⁺ activates specific fluorescence of SAS with a strong fluorescent emissive peak at 539 nm, emitting a bright yellow fluorescence, and this long-wavelength fluorescence was characterized by high photostability and low background interference. The lower detection limit for the aluminum ions of the probe SAS was 6.61 × 10^–8 with higher sensitivity & selectivity. Fluorescence titration and density functional theory (DFT) calculations verified the recognition mechanism, and the chelating fluorescence caused by the coordination of metal ion Al³⁺ enhanced the chelation fluorescence enhancement effect. SAS recognizes Al³⁺ with an emission peak at 539 nm, and this long-wavelength fluorescent probe is characterized by high photostability and low background interference. This fluorescent probe SAS was shown to be useful for the detection of Al³⁺ in real water samples with good recoveries.

Graphical abstract

An oligo(N,O-donor) fluorescent probe SAS with high selectivity for Al³⁺ in DMF: H₂O (9:1, V/V) Tris–HCl solution was designed and synthesized. The addition of Al³⁺ excites the yellow fluorescence of SAS, which produces a strong fluorescence emission peak at 539 nm. The probe SAS was highly selective and sensitive for the detection of Al³⁺ with the lowest detection limit of 6.61 × 10^–8. Fluorescence titration and DFT calculations verified the recognition mechanism, and the chelating fluorescence generated by the coordination of metal ions Al³⁺ enhanced the CHEF effect.

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一种具有 CHEF 效应的新型寡（N,O-供体）荧光探针，用于识别环境中的铝离子

设计并合成了一种在 DMF: H2O (V/V, 9:1) Tris-HCl 溶液中对 Al3+ 具有高选择性的寡聚（N,O-供体）荧光探针 SAS。也就是说，Al3+ 的增加会激活 SAS 的特异性荧光，在 539 nm 处出现一个强荧光发射峰，发出明亮的黄色荧光，这种长波长荧光具有高光稳定性和低背景干扰的特点。探针 SAS 的铝离子检测下限为 6.61 × 10-8，具有较高的灵敏度和选择性。荧光滴定和密度泛函理论（DFT）计算验证了其识别机制，金属离子 Al3+ 配位引起的螯合荧光增强了螯合荧光增强效应。SAS 识别 Al3+ 的发射峰在 539 nm 处，这种长波长荧光探针具有光稳定性高、背景干扰小的特点。图解摘要设计并合成了一种对 DMF: H2O (9:1, V/V) Tris-HCl 溶液中的 Al3+ 具有高选择性的寡聚（N,O-供体）荧光探针 SAS。Al3+ 的加入激发了 SAS 的黄色荧光，并在 539 nm 处产生强烈的荧光发射峰。探针 SAS 对 Al3+ 的检测具有高选择性和高灵敏度，最低检测限为 6.61 × 10-8。荧光滴定和 DFT 计算验证了其识别机制，金属离子 Al3+ 配位产生的螯合荧光增强了 CHEF 效应。

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来源期刊

Chemical Papers Chemical Engineering-General Chemical Engineering

CiteScore

3.30

自引率

4.50%

发文量

590

期刊介绍： Chemical Papers is a peer-reviewed, international journal devoted to basic and applied chemical research. It has a broad scope covering the chemical sciences, but favors interdisciplinary research and studies that bring chemistry together with other disciplines.