Gap variability upon packing in organic photovoltaics
Date
2020-06-16Subject
Organic photovoltaicsMolecular structure
Hydrogen
Photovoltaic power
Alternative energy
Dimers
Electrode potentials
Electrodes
Molecular orbitals
Gap
Density function theory
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The variation of the HOMO-LUMO band gap is explored for varying packing arrangements
of the 4mod BT-4TIC donor-acceptor molecule pair, by means of a high-throughput ab-initio
random structure search of packing possibilities. 350 arrangements of the dimer have been
relaxed from initial random dispositions, using non-local density-functional theory. We find
that the electronic band gap varies within 0.3 eV, and that this magnitude, the binding
energy, and the geometry are not significantly correlated. A clearly favoured structure is
found with a binding energy of 1.75±0.07 eV, with all but three other arrangements displaying
values of less than one third of this highest binding one, which involves the aliphatic
chain of 4TIC.