Proton transfer mass spectrometry at 11 hPa with a circular glow discharge: Sensitivities and applications

Abstract

The design and testing of a circular glow discharge ion source on a custom built proton transfer mass spectrometer are described. Also, issues important for quantitative measurements of volatile organic compounds using this instrument were investigated. Detailed calibration procedures based on gravimetry are presented, and representative outdoor air data are shown. Calibrations yield a good sensitivity, up to a few Hz/pptv for some compounds, and the detection limit (S/N = 3) is ∼100 pptv or better for methanol, acetaldehyde and acetone (5 s sampling time with a 5 s zero). Detection limits are much lower for most other compounds due to high sensitivity and low background. For ions with m/ z > ∼90 the background signals are very low and species that appear efficiently at these m/ z can be detected at the 10 pptv level in a few seconds. Ion breakup processes for alcohols show that a major product ion of mono-functional alcohols is at 57 u, presumably C 4H 9 +. Oxalic acid is an interesting case in that a major product ion appears on an even mass, 46 u, presumably CO 2H 2 +. The circular glow discharge source is easy to construct and deploy in proton transfer mass spectrometry studies at ∼11 hPa. Continuous use of the system over time periods of many days and stable operation over time periods of months to years between disassembly and cleaning demonstrates its robustness.