Molecular and electronic structures of bipolaron in poly-para-phenylene interms of molecular orbital symmetry

The molecular structures of the model systems of the polaron and the bipola ron in poly-para-phenylene (PPP) were calculated by an ab initio molecular orbital (MO) method with fairly sophisticated approximations. The calculate d models are monocations, dications, monoanions and dianions of biphenyl, p ara-terphenyl, para-quaterphenyl, para-quinquephenyl and para-hexaphenyl. T he calculations show that the longer the PPP oligomer is, the stronger is t he tendency to take on a non-planar twisting structure. This was accounted for by the combination of repulsions between proximate ortho-hydrogen atoms with resonance interactions between benzene pi MOs. The magnitude of the r esonance interactions was assessed by using the symmetry of benzene pi MOs as well as an analytical Huckel solution of the pi. MO for polyene. In addi tion, negatively charged polarons and bipolarons were found to have a stron ger tendency to take on a planar structure than positively charged ones. Th is result was also explained by comparing the benzene pi HOMO with the benz ene pi LUMO.