Influence of shape on crystal structure and optical properties of heterocyclic conjugated molecules

Abstract

Organic optoelectronics are increasingly important due to their tunablilty, flexibility, and solution processability. Tuning optical properties of these materials as solids relies on the balance of weak non-covalent interactions that dictate crystal structure, but are difficult to predict. Our research aims to improve our understanding of how electrostatic interactions can direct and facilitate intramolecular interactions that dictate emergent properties of crystalline materials. This paper focuses on exploring how multi-fused thiophene ring systems that are popular in modern organic optoelectronic materials impact intramolecular interactions, while also investigating the role of molecular shape. In these examples, the shape of heterocyclic systems correlate with the crystal structures: while the bent heterocyclics show no discrete and discernible intramolecular interactions, those with bent shapes interact cofacially with one of the electron poor ArF pendants by twisting the arylene ethynylene backbone. Two of the control molecules, which bear non-fluorinated benzyl ester substituents, show intramolecular edge-face interactions, and several of these molecules show clear polymorphic behavior. These findings further our understanding of how discrete interactions can be altered not only by electrostatics, but also by shape, allowing for increasingly nuanced control over the crystal structures and optical properties of optoelectronic materials.

Supplementary files

Article information

Article type
Paper
Submitted
16 août 2024
Accepted
30 oct. 2024
First published
31 oct. 2024

J. Mater. Chem. C, 2024, Accepted Manuscript

Influence of shape on crystal structure and optical properties of heterocyclic conjugated molecules

E. Guzman, Y. Yan, P. Müller, J. Amengual, M. Nieh and S. Thomas, J. Mater. Chem. C, 2024, Accepted Manuscript , DOI: 10.1039/D4TC03509G

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