<p>The development of highly selective and sensitive fluorescent chemosensors is urgently needed to detect toxic aluminum ions (Al<sup>3+</sup>) ions in environmental and biological systems. This work presents the development of a novel Schiff-base fluorescent probe <b>L</b>, which was efficiently synthesized via a one-pot condensation reaction between 3,5-di-<i>tert</i>-butylsalicylaldehyde and 4,5-dimethyl-1,2-phenylenediamine. The molecular structure of the probe <b>L</b> was characterized using nuclear magnetic resonance spectroscopy (<sup>1</sup>H/<sup>13</sup>CNMR) and infrared spectroscopy (FT-IR). Fluorescence spectroscopy studies have shown that probe <b>L</b> exhibits specific recognition of Al<sup>3+</sup> in ethanol/PBS solutions. After adding Al<sup>3+</sup>, the fluorescence at 547&#xa0;nm is significantly enhanced, displaying a bright green fluorescence under 365&#xa0;nm ultraviolet light, and it is not interfered with by other metal ions such as Na<sup>+</sup>, K<sup>+</sup>, Ca<sup>2+</sup>, Mg<sup>2+</sup>, Fe<sup>3+</sup>, Cu<sup>2+</sup>, and Zn<sup>2+</sup>. Job’s plot and theoretical calculations confirm that probe <b>L</b> forms a 1:1 complex with Al<sup>3+</sup>, with a binding constant (<i>K</i><sub>a</sub>) of 2.64 × 10<sup>4</sup> ± 44.67 M<sup>− 1</sup>, and a detection limit (LOD) as low as 1.19 µM. This probe maintains stable recognition performance under a wide range of environmental conditions and has significant potential applications in environmental monitoring.</p>

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A new, AIE-active “butterfly-shaped” Salicylaldehyde Schiff Base as a turn-on Fluorescent Probe for Highly Selective and Sensitive Al3+ Recognition

  • Huiying Gao,
  • Xiting Wang,
  • Zhou Yu,
  • Suo Liu,
  • Ming Yang,
  • Yangyang Song,
  • Yuwei Dong

摘要

The development of highly selective and sensitive fluorescent chemosensors is urgently needed to detect toxic aluminum ions (Al3+) ions in environmental and biological systems. This work presents the development of a novel Schiff-base fluorescent probe L, which was efficiently synthesized via a one-pot condensation reaction between 3,5-di-tert-butylsalicylaldehyde and 4,5-dimethyl-1,2-phenylenediamine. The molecular structure of the probe L was characterized using nuclear magnetic resonance spectroscopy (1H/13CNMR) and infrared spectroscopy (FT-IR). Fluorescence spectroscopy studies have shown that probe L exhibits specific recognition of Al3+ in ethanol/PBS solutions. After adding Al3+, the fluorescence at 547 nm is significantly enhanced, displaying a bright green fluorescence under 365 nm ultraviolet light, and it is not interfered with by other metal ions such as Na+, K+, Ca2+, Mg2+, Fe3+, Cu2+, and Zn2+. Job’s plot and theoretical calculations confirm that probe L forms a 1:1 complex with Al3+, with a binding constant (Ka) of 2.64 × 104 ± 44.67 M− 1, and a detection limit (LOD) as low as 1.19 µM. This probe maintains stable recognition performance under a wide range of environmental conditions and has significant potential applications in environmental monitoring.