In this paper the trifluoromethansulphonate (CF3SO3 −, OTf−, triflate) Eu3+ complexes of a new family of imine-based ligands with 1:1 ligand to metal mole ratio have been employed for luminescence sensing of NO3 −, F−, Cl−, Br−, I−, CH3COO− and ClO4 −, in non-anhydrous acetonitrile (wet AN = wAN) solution. The ligands show different donor ability and stereochemistry. In particular, they consist of the trans racemic isomers containing pyridine or furan as donating ring [N,N′-bis(2-pyridylmethylidene)-1,2-(R,R+S,S)-cyclohexanediamine, L1; N,N′-bis(2-furanylmethylidene)-1,2-(R,R+S,S)-cyclohexanediamine, L2 and the cis (meso) isomer containing the pyridine ring N,N′-bis(2-pyridylmethylidene)-1,2-(R,S)-cyclohexanediamine, L3]. As far as the sensitivity and the selectivity towards the different anions are concerned, the donor ability of the heteroaromatic ring within the ligand backbone, plays a crucial role: the poorly donating furan-based ligand L2 shows the best sensitivity and selectivity towards nitrate. On the other hand, the stereochemistry of the pyridine-based ligand shows a significant effect on the bromide sensing. The effects of the water content on the stability of these complexes have been also studied. Even though the speciation in non-anhydrous is the same as in anhydrous AN (1:1 EuL and 1:2 EuL2 species), their stability is significantly lower. The reasons for this behavior are proposed to be mainly found in the different solvation of both Eu3+ ion and the ligands

Luminescent Eu3+ complexes in acetonitrile solution: Anion sensing and effect of water on the speciation

PICCINELLI, FABIO;Leonzio, Marco;BETTINELLI, Marco Giovanni;
2016-01-01

Abstract

In this paper the trifluoromethansulphonate (CF3SO3 −, OTf−, triflate) Eu3+ complexes of a new family of imine-based ligands with 1:1 ligand to metal mole ratio have been employed for luminescence sensing of NO3 −, F−, Cl−, Br−, I−, CH3COO− and ClO4 −, in non-anhydrous acetonitrile (wet AN = wAN) solution. The ligands show different donor ability and stereochemistry. In particular, they consist of the trans racemic isomers containing pyridine or furan as donating ring [N,N′-bis(2-pyridylmethylidene)-1,2-(R,R+S,S)-cyclohexanediamine, L1; N,N′-bis(2-furanylmethylidene)-1,2-(R,R+S,S)-cyclohexanediamine, L2 and the cis (meso) isomer containing the pyridine ring N,N′-bis(2-pyridylmethylidene)-1,2-(R,S)-cyclohexanediamine, L3]. As far as the sensitivity and the selectivity towards the different anions are concerned, the donor ability of the heteroaromatic ring within the ligand backbone, plays a crucial role: the poorly donating furan-based ligand L2 shows the best sensitivity and selectivity towards nitrate. On the other hand, the stereochemistry of the pyridine-based ligand shows a significant effect on the bromide sensing. The effects of the water content on the stability of these complexes have been also studied. Even though the speciation in non-anhydrous is the same as in anhydrous AN (1:1 EuL and 1:2 EuL2 species), their stability is significantly lower. The reasons for this behavior are proposed to be mainly found in the different solvation of both Eu3+ ion and the ligands
2016
Anion sensing; Lanthanides; Luminescence
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11562/955357
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