Abstract
By employing two-colour laser pulsed field ionisation-photoion (PFI-PI) double-quadrupole-double-octopole ion-molecule apparatus, we have examined the absolute integral cross-section (σ) for the reaction between vanadium cation (V+) and oxygen molecule (O2), covering the centre-of-mass kinetic energy (Ecm) range of 0.2–10.0 eV. Here, V+ ion was prepared exclusively in its lowest 13 spin–orbit or J-states, a5DJ=0-4, a5FJ=1-5 , and a3FJ=2-4. The formation of VO+ + O is identified as the only product channel for these exothermic reactions. At Ecm = 0.2–5.0 eV, the σ values for the three electronic states are found to be in the order: σ(a3FJ) > σ(a5DJ) > σ(a5FJ), whereas these cross-sections become nearly identical at Ecm = 5.0–10.0 eV. This observation has been rationalised by collision-mediated non-adiabatic electronic transitions. The J-state effect for the V+(a3F2, 3) + O2 reactions are unambiguously identified for the first time for a reaction involving a transition metal cation. This J-state dependent chemical reactivity observed calls for rigorous theoretical interpretation. The fact that chemical reactivity for the a5FJ excited state is lower than that for the a5DJ ground state indicates that the difference in chemical reactivity is originated from quantum-electronic-state instead of energy effects.
GRAPHICAL ABSTRACT
Acknowledgements
This material is based upon work supported by the National Science Foundation under CHE-1763319. CYN is also grateful to Dr Huie Tarng Liou for his generous donation of research support for the Ng Laboratory.
Disclosure statement
No potential conflict of interest was reported by the author(s).
ORCID
Yih Chung Chang http://orcid.org/0000-0002-3763-1864
Yuntao Xu http://orcid.org/0000-0002-1205-8168
Bo Xiong http://orcid.org/0000-0002-8985-6897
Cheuk-Yiu Ng http://orcid.org/0000-0003-4425-5307