Cavity ring down spectroscopy on C6H5 radical in a pulsed supersonic jet expansion discharge

Keith A. Freel*, Joonbum Park, Ming-Chang Lin, Michael Heaven

*此作品的通信作者

研究成果: Conference article同行評審

摘要

The formation mechanisms of polycyclic aromatic hydrocarbons (PAH's) are of interest due to the importance of these molecules in the fields of combustion, atmospheric chemistry, interstellar chemistry, and environmental health. The detection and characterization of the highly reactive intermediate species in PAH formation reactions is a key step in the investigation of the formation mechanisms. However, the low concentrations associated with these radicals requires high sensitivity techniques for spectroscopic characterization. This study combines an electrical discharge to produce radicals, a pulsed jet expansion to cool them immediately after production, and cavity ringdown spectroscopy (CRDS) for detection. In our first demonstration of CRDS system, we report the absorption spectrum of the C6H5 (phenyl) radical 2B1-2A1 transition with a rotational temperature near 10 K. Rotational structure is present in our spectra since only lower energy rotational states are populated, greatly simplifying each vibronic band. Therefore we obtained rotational constants and vibrational frequencies of various vibrational states in the 2B1 electronic state by contour fits of various vibronic bands. These results show the effectiveness of our system for studying relatively large, reactive intermediates. The data from this and future studies can be combined with theoretical models to describe PAH formation.

原文English
期刊ACS National Meeting Book of Abstracts
出版狀態Published - 2011
事件241st ACS National Meeting and Exposition - Anaheim, CA, 美國
持續時間: 27 3月 201131 3月 2011

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