Bulletin of the American Physical Society
APS March Meeting 2022
Volume 67, Number 3
Monday–Friday, March 14–18, 2022; Chicago
Session Q16: Organic Electronics III: Nanoscale Phenomena in Optoelectronically Active Polymers
3:00 PM–6:00 PM,
Wednesday, March 16, 2022
Room: McCormick Place W-184A
Sponsoring
Unit:
DPOLY
Chair: Rafael Verduco, Rice University
Abstract: Q16.00011 : Excitonic properties of pi-conjugated acene ethynylene-bridged polymers from a trivial to a non-trivial insulating phase*
5:00 PM–5:12 PM
Presenter:
Davide Romanin
(CNRS - Institut des Nanosciences de Paris - Sorbonne University)
Authors:
Davide Romanin
(CNRS - Institut des Nanosciences de Paris - Sorbonne University)
Alex Chin
(CNRS - Institut des Nanosciences de Paris - Sorbonne University)
Matteo Calandra
(Univ of Trento)
However, the optical properties of such polymers and the impact of the topological transition on their excitonic excitations were not discussed. In this work we study the excitonic properties of infinitely extended pi-conjugated acene ethynylene-bridged polymers by means of self-consistent GW calculations and the solution of the Bethe-Salpeter equation both in the trivial and non-trivial quantum phase. We find that the optical band gap can be mechanically tuned to a great extent in the non-trivial topological phase, as can the excitonic dispersions of the singlet and triplet excitons. Other excitonic properties such as binding energies and oscillator strengths are found to vary in a highly non-monotonic way across the transition, and the effective band inversion in the non-trivial phase leads to striking effects in the real-space wave functions of the excitons that may provide a range of novel opportunities for optoelectronic applications.
[1] B. Cirera et al., Nature Nanotechnology 15, 437-443 (2020).
[2] H. Gonzàlez-Herrero et al., arXiv:2105.00025 [cond-mat.mes-hall] (2021).
*The authors acknowledge support from the ANR project ACCEPT (Contract No. 195608.). This work was granted access to the HPC resources of Jean-Zay (IDRIS) under the allocation 2021-A0100912417 made by GENCI.
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