posted on 2017-11-24, 10:23authored byFrank E. Marshall, Galen Sedo, Channing West, Brooks H. Pate, Stephanie M. Allpress, Corey J. Evans, Peter D. Godfrey, Don McNaughton, G. S. Grubbs II
As the first step of a two-part chiral tagging experiment, the spectrum and subsequent isotopologue analysis on the heavy atoms of (1S)-(-)-Verbenone is presented. The spectrum has been recorded up to 69. GHz on three spectrometers, one CP-FTMW spectrometer from the University of Virginia functional from 2 to 8. GHz, a CP-FTMW spectrometer operational in the 6-18. GHz range located at the Missouri University of Science and Technology, and a Stark-modulated spectrometer operational from 48 to 72. GHz. 1250 transitions have been assigned to the parent and isotopologues for the predominantly b-type spectrum. Rotational constants and quartic centrifugal distortion constants have been determined for the parent species while for the 11 isotopologues only rotational constants have been determined. A Kraitchman analysis has been performed and the resulting coordinates are reported. The experimental heavy-atom structure has been compared to previously studied bicyclic terpenes and the computational structure and is found to be in excellent agreement with both, showing reliability of the theoretical approaches needed for the future chiral tagging work.
Funding
GSGII recognizes a University of Missouri Research Board Grant and Missouri S&T startup for financial support. G. Sedo would like to acknowledge the UVa-Wise Faculty Development Committee for sabbatical funds. Support for B.H. Pate and C. West was provided by NSF MRI Award 1531913.
History
Citation
Journal of Molecular Spectroscopy, 2017, 342, pp. 109-115
Author affiliation
/Organisation/COLLEGE OF SCIENCE AND ENGINEERING/Department of Chemistry
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the online version, at https://doi.org/10.1016/j.jms.2017.09.003.