Higher energy triplet-pair states in polyenes and their role in intramolecular singlet fission

Abstract

Probing extended polyene systems with energy in excess of the bright state (11Bu+/S2) band edge generates triplets via singlet fission. This process is not thought to involve the 21Ag-/S1 state, suggesting that other states play a role. Using density matrix renormalisation group (DMRG) calculations of the Pariser-Parr-Pople-Peierls Hamiltonian, we investigate candidate states that could be involved in singlet fission. We find that the relaxed 11Bu-, and 31Ag- singlet states and 15Ag- quintet state lie below the S2 state. The 11Bu-, 31Ag- and 15Ag- states are all thought to have triplet-triplet character, which is confirmed by our calculations of bond dimerization, spin-spin correlation and wavefunction overlap with products of triplet states. We thus show that there is a family of singlet excitations(i.e., 21Ag-, 11Bu-, 31Ag-, ·s), composed of both triplet-pair and electron-hole character, which are fundamentally the same excitation, but have different center-of-mass energies. The lowest energy member of this family, the 21Ag- state, cannot undergo singlet fission. But higher energy members (e.g., the 31Ag-) state, owing to their increased kinetic energy and reduced electron-lattice relaxation, can undergo singlet fission for certain chain lengths.