Issue 33, 2021

Oligoene and cyanine features of tetracyano quinoidal oligothiophenes

Abstract

This paper interprets a palette of spectroscopic data on tetracyano thienoquinoidal molecules of different sizes oriented towards the elucidation of their electronic behavior and other aspects of interest in materials chemistry. It also provides a contextualization of these properties between those of even oligoenes (carotene-like) and those of odd cyanines as a function of the reduction state. A complete UV-Vis-NIR electronic absorption, fluorescence emission and infrared spectroscopic study in part helped by quantum chemical calculations in the framework of the DFT theory has been carried out. The study encompasses the neutral and charged states. The optical properties of these compounds in the neutral state are controlled by the competition of bright (electric dipole–dipole allowed) and dark (electric dipole–dipole forbidden) singlet excited states. In the anionic state, the trimeric compounds disclose behaviors compatible with being either charge localized or delocalized mixed valence systems. Interestingly, we show the π-dimerization of a radical anion of a thienoquinoidal compound forming a π-dimer dianion as a manifestation of the delocalization of the charge in the charged monomer. The hexamer compound in the neutral state discloses incipient diradical character which permits the detection of a NIR emission band from the dark state at energies well below 1 eV. As thiophene benzo-annulation minimizes the diradical character, it forces the confinement of the charge in the vicinity of the terminal dicyanomethylene groups in the dianion. The oxidized species of the compounds have been also analyzed as models of charge localization states. The competition between doublet and quartet high spin states in the radical cations has been explored with the objective of visualizing potential molecules able to produce SOMO–HOMO energy inversion. This paper adds an interesting perspective of the electronic structure of quinoidal molecules with respect to their interest in the field of organic electronics.

Graphical abstract: Oligoene and cyanine features of tetracyano quinoidal oligothiophenes

Supplementary files

Article information

Article type
Paper
Submitted
29 mar 2021
Accepted
19 maj 2021
First published
19 maj 2021
This article is Open Access
Creative Commons BY license

J. Mater. Chem. C, 2021,9, 10727-10740

Oligoene and cyanine features of tetracyano quinoidal oligothiophenes

S. Moles Quintero, J. L. Zafra, K. Yamamoto, Y. Aso, Y. Ie and J. Casado, J. Mater. Chem. C, 2021, 9, 10727 DOI: 10.1039/D1TC01436F

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