Abstract
Fluoride (F-) contamination in drinking water is a major global concern. According to several studies, India and China are the most affected by the presence of excess F-. Long-time exposure to F- concentrations above 1.5ppm can lead to hard and soft tissue fluorosis(F- toxicity). There are no effective cure or treatment for fluorosis and the condition is almost irreversible. Considering water to be the prime media through which F- reaches humans, maintaining optimal F- levels in water remains the only possible remedy. F- endemic areas have adapted several conventional defluoridation techniques to resolve the issue. Among these, adsorption with plant compounds is widely used for F- removal. Studies have shown that plant metabolites can ameliorate the toxic effects of F-. Based on this, we attempt to elucidate the potential binding and electrochemical bio-sensing properties of selected phytochemicals towards F-. The focus of the present work is to evaluate the interactions of phytochemicals with F-; for which, the binding studies of phytochemicals with F- have been elaborated by UV-visible spectroscopy and emission techniques. Benesi-Hildebrand's (BH) plot was used to calculate the binding constant (CUR-34.9 × 103 (M-1), QUER - 13 ×103 (M-1),ESC-6.3 × 103 (M-1), FIS - 5.36 ×103 (M-1) and PCA-1.5 × 103 (M-1), and detection limit (CUR - 1.54× 10-7M, QUER - 0.156 × 10-6 M,ESC-0.221 × 10-6 M, FIS - 0.175× 10-6 M,and PCA-5.8 × 10-6M) for the F-:phytochemical mixtures. Further, the binding characteristicswere confirmed using 1H-NMRtitration experiments. Our findings highlight the potential of phytochemicals as effective binding agents for F-, thereby reducing its bioavailability.
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