Excited states of ortho-nitrobenzaldehyde as a challenging case for single- and multi-reference electronic structure theory

Dóra Vörös, Sebastian Mai (Corresponding author)

Publications: Contribution to journalArticlePeer Reviewed

Abstract

We present a large set of vertical excitation calculations for the ortho-nitrobenzaldehyde (oNBA) molecule, which exhibits a very challenging excited-state electronic structure like other nitroaromatic compounds. The single-reference methods produce mostly consistent results up to about 5.5 eV. By contrast, the CAS second-order perturbation theory (CASPT2) results depend sensitively on the employed parameters. At the CAS self-consistent field level, the energies of the bright (Formula presented.) states are strongly overestimated while doubly excited states appear too low and mix with these (Formula presented.) states. This mixing hampers the CASPT2 step, leading to inconsistent results. Only by increasing the number of states in the state-averaging step to about 40—to cover all bright (Formula presented.) states embedded in the double excitations—and employing extended multistate CASPT2 could CASPT2 results consistent with experiment be obtained. We assign the four bands in the molecule's spectrum: The weakest band at 3.7 eV arises from the (Formula presented.) states, the second one at 4.4 eV from the (Formula presented.) ((Formula presented.)) state, the shoulder at 5.2 eV from the (Formula presented.) ((Formula presented.)) state, and the maximum at 5.7 eV from the (Formula presented.) ((Formula presented.)) states. We also highlight the importance of modern wave function analysis techniques in elucidating the absorption spectrum of challenging molecules.

Original languageEnglish
Pages (from-to)1381-1394
Number of pages14
JournalJournal of Computational Chemistry
Volume44
Issue number14
DOIs
Publication statusPublished - 30 May 2023

Austrian Fields of Science 2012

  • 104022 Theoretical chemistry
  • 103036 Theoretical physics

Keywords

  • excited states
  • multireference calculations
  • nitro-aromatic compounds
  • single-reference calculations
  • UV/Vis absorption spectroscopy

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