Hydrogen bonding in 2-carboxyanilinium dihydrogenphosphate

The crystal structure analysis of the title compound, C 7 H 8 NO 2 + ÁH 2 PO 4 À , has revealed a three-dimensional hydrogen-bonded network structure, involving the dihydrogenphosphate anions, the carboxyl groups and the ammonium groups. The anions are held together via strong O-HÁ Á ÁO hydrogen bon

Hydrogen bonding is qualitatively accounted for in the early versions of the MM2 program, but not quantitatively. Experimentally, the hydrogen bonds are somewhat shorter and stronger than calculated by MM2. This has been corrected now in MM2(87), by reducing the van der Waals radius of the hydrogen

Ab initio LCAO MO SCF calculations are reported on the linear form of LiH dimer. The prcperties and structure of the Li-H-Li linkage xe discussed in the light of hydrogen bonding.

The O-H and N-H stretching frequencies of a numbor of N-bcnzylanilines and N-2-hy&oxybenzylanilines have been measured in dilute carbon tetrachloride solution and attempts made to relate the observed spectra to the known effects of substituents. The results indicate that rotational isomerism probab

In our recent proton magnetic resonance study of aromatic amines and their derivatives1 we proposed that certain ortho-substituted acetanilides exhibit intramolecular -hydrogen bonding between the amide proton and the ortho-substituent in deuterochlorofo\*rm