Issue 6, 2015

UV-visible and 1H–15N NMR spectroscopic studies of colorimetric thiosemicarbazide anion sensors

Abstract

Four model thiosemicarbazide anion chemosensors containing three N–H bonds, substituted with phenyl and/or 4-nitrophenyl units, were synthesised and studied for their anion binding abilities with hydroxide, fluoride, acetate, dihydrogen phosphate and chloride. The anion binding properties were studied in DMSO and 9 : 1 DMSO–H2O by UV-visible absorption and 1H/13C/15N NMR spectroscopic techniques and corroborated with DFT studies. Significant changes were observed in the UV-visible absorption spectra with all anions, except for chloride, accompanied by dramatic colour changes visible to the naked eye. These changes were determined to be due to the deprotonation of the central N–H proton and not due to hydrogen bonding based on 1H/15N NMR titration studies with acetate in DMSO-d6–0.5% water. Direct evidence for deprotonation was confirmed by the disappearance of the central thiourea proton and the formation of acetic acid. DFT and charge distribution calculations suggest that for all four compounds the central N–H proton is the most acidic. Hence, the anion chemosensors operate by a deprotonation mechanism of the central N–H proton rather than by hydrogen bonding as is often reported.

Graphical abstract: UV-visible and 1H–15N NMR spectroscopic studies of colorimetric thiosemicarbazide anion sensors

Supplementary files

Article information

Article type
Paper
Submitted
30 Sep 2014
Accepted
17 Nov 2014
First published
18 Nov 2014
This article is Open Access
Creative Commons BY license

Org. Biomol. Chem., 2015,13, 1662-1672

UV-visible and 1H–15N NMR spectroscopic studies of colorimetric thiosemicarbazide anion sensors

K. N. Farrugia, D. Makuc, A. Podborska, K. Szaciłowski, J. Plavec and D. C. Magri, Org. Biomol. Chem., 2015, 13, 1662 DOI: 10.1039/C4OB02091J

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