English

Unveiling multi-quantum excitonic correlations in push-pull polymer semiconductors

Materials Science 2024-04-01 v2 Chemical Physics

Abstract

Bound and unbound Frenkel-exciton pairs are essential transient precursors for a variety of photophysical and biochemical processes. In this work, we identify bound and unbound {Frenkel}-exciton complexes in an electron push-pull polymer semiconductor using coherent two-dimensional spectroscopy. We find that the dominant A01A_{0-1} peak of the absorption vibronic progression is accompanied by a sub-peak, each dressed by distinct vibrational modes. By considering the Liouville pathways within a two-exciton model, the imbalanced cross peaks in one-quantum rephasing and non-rephasing spectra can be accounted for by the presence of pure biexcitons. The two-quantum non-rephasing spectra, on the other hand, provide direct evidence for unbound exciton pairs and biexcitons with dominantly attractive force. In addition, the spectral features of unbound exciton pairs show mixed absorptive and dispersive character, implying many-body interactions within the correlated {Frenkel}-exciton pairs. Our work offers novel perspectives on the rich photophysical processes in semiconductor polymers with the presence of Frenkel exciton complexes.

Keywords

Cite

@article{arxiv.2401.04035,
  title  = {Unveiling multi-quantum excitonic correlations in push-pull polymer semiconductors},
  author = {Yulong Zheng and Esteban Rojas-Gatjens and Myeongyeon Lee and Elsa Reichmanis and Carlos Silva-Acuña},
  journal= {arXiv preprint arXiv:2401.04035},
  year   = {2024}
}

Comments

Submitted for publication to The Journal of Physical Chemistry Letters

R2 v1 2026-06-28T14:11:27.145Z