Robust and Ultrasensitive Chemosensor Based on Bifunctionalized MIL‐101(Al) for Fluorescent Detection of Ferric Ions in Serum and Pharmaceutical Tablets

Aims:: By using terephthalic acid, 2, 5-furandicarboxylic acid, and terbium nitrate hexahydrate, a Tb-MOF with a core-shell structure was successfully designed and prepared. Method:: A one-pot method was employed to design and synthesize core-shell Tb-MOF. The morphology, luminescence performance, and stability were well characterized. Results:: Tb-MOF demonstrated good water stability, acid and alkali resistance, and thermal stability. Tb-MOF was found to have high sensitivity to detect Cr3+, Bi3+, and acetone in an aqueous solution, and the LOD of Cr3+, Bi3+, and acetone were calculated to be 0.18 μM, 4.22 μM, and 0.26%, respectively. The sensing mechanism of Cr3+ and acetone was explained as energy-competitive absorption, and the sensing mechanism of Bi3+ was explained as ion replacement. Conclusion:: The prepared Tb-MOF can be developed as a multifunctional light-emitting sensor with high selectivity.

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Robust and Ultrasensitive Chemosensor Based on Bifunctionalized MIL‐101(Al) for Fluorescent Detection of Ferric Ions in Serum and Pharmaceutical Tablets

Cited by 3 publications

References 35 publications

Novel synthesis of sensor for selective detection of Fe+3 ions under various solvents

Novel synthesis of sensor for selective detection of Fe+3 ions under various solvents

An effective procedure used metal–organic framework for determination of cadmium ions in real tap water and human blood plasma samples

Luminescence Detection of Cr3+, Bi3+, and Acetone in Aqueous Solution by Core-Shell Tb-MOF

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