AI Article Synopsis
- - Water contamination from heavy metals like copper (Cu) is a serious global health concern, as excessive Cu accumulation in the body can lead to various health issues.
- - A new fluorescent probe called Eu-BTB was developed to detect Cu efficiently, using a ligand that enhances the fluorescence of the probe when interacting with Eu and decreasing it when Cu is present.
- - This probe is highly effective for measuring Cu in water, showing a strong linear relationship over a concentration range of 0.05-10 μM, with a low detection limit of 10 nM and quick response time, validated with conventional testing methods.
Article Abstract
Water contamination caused by heavy metals represents an urgent global issue. Cu, a potential trace heavy metal pollutant, can accumulate in the human body through the food chain, leading to excessive levels that give rise to diverse health complications. Hence, in this investigation, a novel and efficacious fluorescent probe named Eu-BTB was developed for the detection of Cu, employing 1,3,5-triphenyl(4-carboxyphenyl) (HBTB) as the ligand and Eu as the metallic framework. The probe demonstrates exceptional fluorescence characteristics. The interaction between the probe ligand BTB and Eu triggers an antenna effect, heightening the emission efficiency of Eu while preserving its intrinsic emission. The introduction of Cu competes with BTB for binding, thus quelling the antenna effect and inducing a fluorescence alteration. Within the concentration range of 0.05-10 μM, the fluorescence intensity-to-Cu concentration ratio exhibits a robust linear correlation, with a remarkably low detection limit of 10 nM and a rapid response time of 3 min. The fluorescent probe has been effectively deployed for the detection of copper ions in water across diverse environmental conditions, with the obtained outcomes being validated via the conventional approach of inductively coupled plasma mass spectrometry (ICP-MS). The Eu-BTB probe showcases the advantages of simplicity, swiftness, and broad applicability, thus affirming its potential for the prompt and accurate detection of Cu in diverse environmental water samples.
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| http://dx.doi.org/10.1016/j.saa.2023.123367 | DOI Listing |
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