A. Fratiello et al., MULTINUCLEAR MAGNETIC-RESONANCE STUDY OF ZINC(II) AND CADMIUM(II) COMPLEXING WITH ISOTHIOCYANATE, Journal of solution chemistry, 27(4), 1998, pp. 331-359
A study of zinc(II) and cadmium(II) complexes with isothiocyanate ion
has been completed, using a low-temperature, multinuclear magnetic res
onance technique that permits the observation of separate resonance si
gnals for bound and free ligand, and Cd(II) metal ion. The Zn2+-NCS- c
omplexes were studied by H-1, C-13, and N-15 NMR spectroscopy. In the
H-1 spectra, the intensity of the coordinated water signal, correspond
ing to a Zn(II) hydration number of six in the absence of NCS-, decrea
ses dramatically as this anion is added, indicating the complexing pro
cess involves more than a simple 1:1 ligand replacement. The C-13 and
N-15 NMR spectra reveal signals for four species, most reasonably assi
gned to a series of tetrahedrally coordinated Zn2+-NCS- complexes. In
the Cd2+-NCS- solution spectra, the C-13 and N-15 signals for four com
plexes also are observed and they are three line patterns, correspondi
ng to a doublet from Cd-113 J-coupling, and a dominant central peak, r
esulting from bonding to magnetically inactive Cd isotopes. The Cd-113
spectra, showing signals for four complexes, correlate well in all re
spects with the C-13 and N-15 results, including coupling in specific
cases. The spectral results for both metal ions reflect binding at the
nitrogen atom of NCS-, with the complexes changing from an octahedral
to a tetrahedral configuration when doing so. Confirming evidence for
these conclusions also was provided by several infrared measurements
of these metal-ion systems.