Journal of Physical Chemistry A, Vol.114, No.45, 12083-12087, 2010
N-14 NQR Study of Polymorphism and Hydrogen Bonding in Molecular Complex Isonicotinamide-Oxalic Acid (2:1)
The complete N-14 nuclear quadrupole resonance (NQR) spectra have been measured in the two polymorphic crystalline phases of the molecular complex isonicotinamide-oxalic acid (2:1) by nuclear quadrupole double resonance. The observed NQR frequencies, quadrupole coupling constants, and asymmetry parameters (eta) have been assigned to the two nitrogen positions (ring and amide) in a molecule on the basis of the intensity and multiplicity of the double resonance signals. The NQR data for the ring nitrogen in both polymorphic phases deviate from the correlation relations observed in substituted pyridines. This deviation is analyzed in a model, where it is assumed that an additional electric charge on the nitrogen atom changes the NQR parameters. The model suggests that this additional electric charge is negative so that the N center dot center dot center dot H-O hydrogen bond seem to be partially ionic, of the type N-center dot center dot center dot H-O.