Abstract

The new enantiopure complexes [LnL](NO 3) 3 · nH 2O (Ln = Dy +3, Ho +3, Er +3, Lu +3) and [LnL]Cl 3 · nH 2O (Ln = Nd +3, Sm +3, Gd +3, Tb +3, Dy +3, Ho +3, Er +3, Tm +3, Lu +3) of the chiral macrocycle L derived from (1R,2R)-1,2-diaminocyclohexane and 2,6-diformylpyridine have been synthesised. The preference of macrocycle L for the heavier lanthanide(III) ions has been established on the basis of competition reaction. The complexes have been characterised by NMR spectroscopy and mass spectrometry. 1H NMR signals of deuterated water solutions of the Ce +3, Nd +3 and Eu +3 complexes have been assigned on the basis of the COSY and HMQC spectra, and for the remaining lanthanide complexes the signals were assigned on the basis of linewidths analysis. The paramagnetic shifts of the series of lanthanide complexes [LnL](NO 3) 3 · nH 2O and [LnL]Cl 3 · nH 2O have been analysed using both crystal-field dependent and independent methods in order to separate contact and dipolar contributions and establish isostructurality along the series of lanthanide complexes in solution. The data obtained for nitrate derivatives in organic solvent indicate rather irregular deviations from the plots based on those methods, while the plots obtained for water solutions show the characteristic brake in the middle of the lanthanide series, that is interpreted as a result of change of the number of axially coordinated water molecules. The apparent inconsistencies of results obtained on the basis of crystal-field independent method are discussed.

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