Theoretical predictive study on N 7H 7 hydronitrogen compounds

Abstract

Geometric structures and energy properties of 25 isomers of N 7H 7 hydronitrogen compounds have been studied at the B3LYP/6-311++G(d,p) level. Atoms in molecules (AIM) and nature bond orbital (NBO) theories are applied to analyze the bond nature and the origin of structure and energy variations. The result indicates that the hyperconjugation from the lone pair of nitrogen to the neighboring N N bond plays an important role in the N N bond length variation and the relative stability of the 25 isomers can be attributed to the steric and hyperconjugative effects. G3MP2 calculations show that the heats of formation (HOFs) of all the isomers, especially those of the cyclic isomers, are positive and large, suggesting their potential to be energy molecules. Furthermore, the HOFs of the cyclic isomers decrease with increase of the number of substituents.