Spin-orbit coupling and rovibrational structure in the iododiacetylene radical cation by PFI-ZEKE photoelectron spectroscopy

Abstract

The photoelectron spectrum of the X+\,2 ← X\,1+ photoionising transition in iododiacetylene, HC4I, has been recorded using pulsed-field-ionisation zero-kinetic-energy (PFI-ZEKE) photoelectron spectroscopy with partial resolution of the rotational structure. The first adiabatic ionisation energy of HC4I and the spin-orbit splitting of the X+\,2 state of HC4I+ are determined as EadI/(hc) = 74470.7(2) cm-1 and so = 1916.7(4) cm-1, respectively. Several vibrational levels of the X+\,2 electronic ground state of the HC4I+ cation have been observed. The experimental data are discussed in the realm of a simple three-state charge-transfer model without adjustable parameters which allows for a qualitative description of the electronic structure and spin-orbit coupling in HC4I+ and of the change in bond lengths upon ionisation of HC4I.