Issue 17, 2024

Selective fluoride sensing by a novel series of lanthanide-based one-dimensional coordination polymers through intramolecular proton transfer

Abstract

A novel series of one-dimensional coordination polymers (CPs) is achieved via a facile one-pot synthesis strategy employing the nitrate salts of trivalent lanthanides, a pentadentate chelating ligand, and triphenylphosphine oxide at a controlled stoichiometry under ambient conditions. All the CPs are characterized comprehensively using spectroscopic, X-ray crystallographic and magnetometric studies. The CPs are found to be thermally stable up to a significantly high temperature and resistant to water for an indefinite time. They are photoactive and exhibit selective fluoride ion (F) sensing with excellent efficiency both colorimetrically and fluorimetrically in the solid-state as well as in solution. The presence of F concomitantly sensitizes the photoluminescence enhancement and visual decolourization of the CPs in solution owing to the ground-state intra-molecular proton transfer. The photophysical response of the CPs to F in solution was found to be instantaneous (<30 s). The sensitivity of detection is observed to be significantly high over a wide range of F concentrations, covering the beneficial and detrimental domains of F concentrations in drinking water. The limit of detection (LoD) under ambient conditions was found to be in the micromolar (μM) range—the best being 0.22 μM found using UV-vis spectrometry and 7.5 μM using fluorimetry. In comparison, the USEPA standard cut-off for the upper limit of F concentration in drinking water is 211 μM, and the LoD of measuring F concentration using the USEPA standard method using a fluoride-selective electrode is 26.3 μM. The CPs display markedly high selectivity toward F with negligible-to-no interference from the commonly abundant ions (Cl, Br, I, CH3CO2, CO32−, SO42−, HPO42−, NH4+, Na+, K+, Mg2+, and Ca2+) in terms of UV-vis spectral change. Moreover, they also exhibit solid-state IR-spectrometric sensitivity towards F under ambient conditions.

Graphical abstract: Selective fluoride sensing by a novel series of lanthanide-based one-dimensional coordination polymers through intramolecular proton transfer

Supplementary files

Article information

Article type
Paper
Submitted
28 Feb 2024
Accepted
20 Mar 2024
First published
21 Mar 2024
This article is Open Access
Creative Commons BY license

Dalton Trans., 2024,53, 7436-7449

Selective fluoride sensing by a novel series of lanthanide-based one-dimensional coordination polymers through intramolecular proton transfer

V. Singh, L. T. Suresh, J. Sutter and A. K. Bar, Dalton Trans., 2024, 53, 7436 DOI: 10.1039/D4DT00598H

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