Issue 27, 2022

The Jahn–Teller and pseudo-Jahn–Teller effects in the propyne radical cation

Abstract

The Jahn–Teller (JT) and pseudo-Jahn–Teller (PJT) effects in the [X with combining tilde]2E, Ã2E and [B with combining tilde]2A1 electronic states of the propyne radical cation are investigated with the aid of ab initio quantum chemistry calculations and first principles quantum dynamics simulations. For the latter, both time-independent and time-dependent quantum mechanical methods are employed. Standard vibronic coupling theory is used to construct a symmetry consistent vibronic Hamiltonian in a diabatic electronic basis. Taylor series expansion of the elements of the diabatic electronic Hamiltonian is carried out and the parameters that appear in the expansion are derived from the ab initio calculated adiabatic electronic energies. It is found that the JT effect is weak in the [X with combining tilde]2E state as compared to that in the Ã2E state. Because of large energy separation, the PJT coupling among the JT-split components of the [X with combining tilde]2E state with the neighboring states is also very weak. However, the PJT coupling of the [B with combining tilde]2A1 state with the JT split components of the Ã2E state has some impact on the dynamics in the coupled Ã2E[B with combining tilde]2A1 electronic states. The vibronic spectrum of each of these states is calculated and compared with the experimental results. The nonradiative internal conversion dynamics of excited cationic states is examined. Interesting comparison is made with the JT and PJT coupling effects in the nuclear dynamics of the [X with combining tilde]2EÃ2E[B with combining tilde]2B2 electronic states of the isomeric allene radical cation.

Graphical abstract: The Jahn–Teller and pseudo-Jahn–Teller effects in the propyne radical cation

Supplementary files

Article information

Article type
Paper
Submitted
27 Apr 2022
Accepted
19 Jun 2022
First published
20 Jun 2022

Phys. Chem. Chem. Phys., 2022,24, 16522-16537

The Jahn–Teller and pseudo-Jahn–Teller effects in the propyne radical cation

A. K. Kanakati, V. J. Rani and S. Mahapatra, Phys. Chem. Chem. Phys., 2022, 24, 16522 DOI: 10.1039/D2CP01930B

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