Volume 254, 2024

Classification and quantitative characterisation of the excited states of π-conjugated diradicals

Abstract

Diradicals are of high current interest as emerging materials for next generation optoelectronic applications. To tune their excited-state properties it would be greatly beneficial to have a detailed understanding of the wave functions of the different states involved but this endeavour is hampered by formal and practical barriers. To tackle these challenges, we present a formal analysis as well as concrete results on diradical excited states. We start with a detailed investigation of the available states of a two-orbital two-electron model viewed from both the valence-bond and molecular orbital perspectives. We highlight the presence of diradical and zwitterionic states and illustrate their connections to the states found in closed-shell molecules. Subsequently, we introduce practical protocols for analysing states from realistic multireference computations applying these to the para-quinodimethane (pQDM) molecule. The analysis reveals four different categories of states – diradical, zwitterionic, HOMO–SOMO as well as biexciton – while also providing insight into their energetics and optical properties. Twisting the CH2 groups allows us to interconvert between the closed- and open-shell forms of pQDM illustrating the connection between the states in both forms. More generally, we hope that this work will lay the foundations for a more powerful rational design approach to diradicals for photophysical applications.

Graphical abstract: Classification and quantitative characterisation of the excited states of π-conjugated diradicals

Associated articles

Supplementary files

Article information

Article type
Paper
Submitted
11 3月 2024
Accepted
24 4月 2024
First published
26 4月 2024
This article is Open Access
Creative Commons BY license

Faraday Discuss., 2024,254, 107-129

Classification and quantitative characterisation of the excited states of π-conjugated diradicals

L. Matasović, H. Bronstein, R. H. Friend and F. Plasser, Faraday Discuss., 2024, 254, 107 DOI: 10.1039/D4FD00055B

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