Download This PaperConstruction of a Ratiometric Turn-On Fluorescent Probe Based on Amino Acid Skeleton for Specific Detection of Al3+ Ions in Environmental and Biological System
28 Pages Posted: 26 Feb 2025
Abstract
In this work, a novel colorimetric and fluorometric dual-channel fluorescent sensor NHO based on an unsaturated amino acid derivative was rationally designed. The sensor exhibited discerning and expeditious fluorescence sensing capabilities towards Al3+ in MeOH/Hepes buffer solution (9/1, v/v, pH 7.4). The fluorescence of NHO at 537 nm was significantly and instantaneously enhanced upon addition of Al3+ ions, and this fluorescence could be reversibly quenched by EDTA. The detection limit (LOD) and binding constant of NHO for Al3+ were determined to be 24.8 nM and 6.1 x 109 M-2, respectively. The mechanism of interaction between NHO and Al3+ was comprehensively investigated and theoretically supported via DFT calculation. Furthermore, NHO’s multifaceted practical applications in detecting Al3+ ions were explored, including tests in real water samples, commercially available almagate suspension and applications on test paper. A smartphone-assisted detection platform was developed, making the monitoring of Al3+ ions more convenient and cost-effective. Additionally, NHO also exhibited promising bioimaging capabilities in HeLa cells. These inventions highlighted that NHO was a useful tool for the detection of Al3+ in both environmental and living systems.
Keywords: amino acid, fluorescent sensor, aluminum ions, multifaceted applications
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