Low‐Energy Electronic Excitations of N‐Substituted Heteroacene Molecules: Matrix Isolation Spectroscopy in Concert with Quantum‐Chemical Calculations.

Thusek, Jean; Hoffmann, Marvin; Hübner, Olaf; Tverskoy, Olena; Bunz, Uwe H. F.; Dreuw, Andreas; Himmel, Hans‐Jörg

N‐Heteropolycycles are attractive as materials in organic electronic devices. However, a detailed understanding of the low‐energy electronic excitation characteristics of these species is still lacking. In this work, the matrix isolation technique is applied to obtain high‐resolution absorbance spectra for a series of tetracene and core‐substituted N‐analogues. The experimental electronic excitation spectra obtained for matrix‐isolated molecules are then analysed with the help of quantum‐chemical calculations. Additional lower energy excitation bands in the spectrum of the core‐substituted N‐derivatives of tetracene could be explained in terms of intensity borrowing from dipole‐forbidden transitions due to Herzberg–Teller vibronic coupling. In the case of tetracene, evidence for the additional formation of London dimers (J aggregates) is found at higher tetracene concentrations in the matrix.

LONDON (England); ELECTRONIC excitation; MATRIX isolation; VIBRONIC coupling; MATRIX isolation spectroscopy; ENERGY bands; MOLECULES

Chemistry - A European Journal, 2019, Vol 25, Issue 66, p15147

0947-6539

Academic Journal

10.1002/chem.201903371