Department
Chemistry and Biochemistry
Document Type
Article
Publication Date
10-22-2025
Embargo Period
11-23-2025
Abstract
We report molecular dynamics simulations of infrared (IR) and Raman spectra of H5O2+ and its deuterium-substituted analogs. We use the well-tested HBB potential and dipole surfaces along with a recently fitted polarizability surface of CCSD(T)/aug-cc-pVTZ quality. The focus of the present work is to provide new insights into the O···O stretch region, located in the [500–700] cm–1 spectral range, by means of analyzing the spectra over a broad range of temperatures: from 50 to 300 K. Also, rovibrational thermal averaging was performed to untangle the unusually complex spectra of partially deuterated isotopologues DH4O2+ and D4HO2+ with H and D minority species in both internal (int) and external (ext) positions. Our findings show that DH4O2+ (ext) is at least 90% prevalent at the [50–300] Kelvin temperatures, predominantly due to its low zero-point energy (ZPE). Furthermore, contrary to previous reports that the mixed isotopologue D4HO2+ (int) should be favored over D4HO2+ (ext) due to its lower ZPE, the present calculations indicate that while the D4HO2+ (ext) species is “invisible” at lower temperatures, it overtakes D4HO2+ (int) as the dominant species at 84.9 K and higher.
Journal Title
The Journal of Physical Chemistry A
Journal ISSN
1520-5215
Volume
129
Issue
43
Digital Object Identifier (DOI)
10.1021/acs.jpca.5c05184