Relaxation energies and excited state structures of poly(para-phenylene)

Abstract

We investigate the relaxation energies and excited state geometries of the light emitting polymer, poly(para-phenylene). We solve the Pariser-Parr-Pople-Peierls model using the density matrix renormalization group method. We find that the lattice relaxation of the dipole-active 11B1u- state is quite different from that of the 13B1u+ state and the dipole-inactive 21Ag+ state. In particular, the 11B1u- state is rather weakly coupled to the lattice and has a rather small relaxation energy ca. 0.1 eV. In contrast, the 13B1u+ and 21Ag+ states are strongly coupled with relaxation energies of ca. 0.5 and ca. 1.0 eV, respectively. By analogy to linear polyenes, we argue that this difference can be understood by the different kind of solitons present in the 11B1u-, 13B1u+ and 21Ag+ states. The difference in relaxation energies of the 11B1u- and 13B1u+ states accounts for approximately one-third of the exchange gap in light-emitting polymers.

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