Theoretical investigation on carbon-centered tri-s-tetrazine and its 10 derivatives

摘要

A novel species, carbon-centered tri-s-tetrazine (C4N9H3) and its 10 derivatives (C4N9-R-3, where R = OH, F, CN, N-3, NH2, NO2, N=NH, N2H3, C CH, and CH=CH2) have been studied computationally. Density functional theory (DFT) has been used to study the geometries, electronic structure, harmonic vibrational frequencies, ionization energies of the I I compounds at the restricted (for neutrals) and the unrestricted (for cations) B3LYP/cc-pVDZ level of theory. Atoms in molecule (AIM) and natural bond orbital (NBO) analyses have been used to obtain the bonding properties. Valence bond (VB) theory is applied to explain the unusual pyramidal structure around the carbon-center and electron arrangements of orbitals. We found: (1) All the species possess novel bonding features and geometrical structures. The atoms on the periphery of each species are sp(2) hybridized. Each of these atoms offers an orbital to form an extensive conjugation system 12(pi 15) (a pi system consisting of 12 centers and 15 electrons). The central carbon atom C13 is sp(3) hybridized, which makes the non-planar molecule shape like a straw-hat. Atom C13 also participates in the conjugated pi system with its sp3 hybridized orbital, thus forming an extensive 13(pi 16) conjugate pi system covering the whole C4N9 framework. (2) The change of charge on C13 is the largest among all the atoms when the species is ionized and the atomic charges are redistributed. In other words, C13 is the attack center for electrophilic agents. Thus, the species is carbanion-like. (3) All the species have low ionization energies (IEs). The electron ionized mainly comes from C13. They may have wide applications in organic chemistry, in organometallic chemistry and in alkyl lithium chemistry once they are synthesized. (c) 2007 Elsevier Inc. All rights reserved.