Journal article
Bond dissociation energy of FeCr determined through threshold photodissociation in a cryogenic ion trap
Samuel JP Marlton, Chang Liu, Evan J Bieske
Journal of Chemical Physics | American Institute of Physics | Published : 2024
DOI: 10.1063/5.0188157
Abstract
The bond dissociation energy of FeCr+ is measured using resonance enhanced photodissociation spectroscopy in a cryogenic ion trap. The onset for FeCr+ → Fe + Cr+ photodissociation occurs well above the lowest Cr+(6S, 3d5) + Fe(5D, 3d64s2) dissociation limit. In contrast, the higher energy FeCr+ → Fe+ + Cr photodissociation process exhibits an abrupt onset at the energy of the Cr(7S, 3d54s1) + Fe+(6D, 3d64s1) limit, enabling accurate dissociation energies to be extracted: D(Fe-Cr+) = 1.655 ± 0.006 eV and D(Fe+-Cr) = 2.791 ± 0.006 eV. The measured D(Fe-Cr+) bond energy is 10%-20% larger than predictions from accompanying CAM (Coulomb Attenuated Method)-B3LYP and NEVPT2 and coupled cluster sing..
View full abstractRelated Projects (2)
Grants
Awarded by Australian Research Councilhttps://doi.org/10.13039/501100000923
Funding Acknowledgements
This research was supported under the Australian Research Council's Discovery Project funding scheme (Project Nos. DP150101427 and DP160100474). The authors thank Richard Mathys from the Science Faculty Workshop for his valuable contributions to the design and construction of the apparatus used in this study.