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Comparison of dielectric barrier discharge, atmospheric pressure radiofrequency-driven glow discharge and direct analysis in real time sources for ambient mass spectrometry of acetaminophen
Authors:Jan Kratzer,Zoltá  n Mester,Ralph E. Sturgeon
Affiliation:aInstitute for National Measurement Standards, National Research Council of Canada, 1200 Montreal Road, Ottawa, Ontario, Canada K1A 0R6;bInstitute of Analytical Chemistry of the ASCR, v.v.i., Veve?í 97, CZ-602 00 Brno, Czech Republic
Abstract:Three plasma-based ambient pressure ion sources were investigated; laboratory constructed dielectric barrier and rf glow discharges, as well as a commercial corona discharge (DART source). All were used to desorb and ionize a model analyte, providing sampling techniques for ambient mass spectrometry (MS). Experimental parameters were optimized to achive highest signal for acetaminophen as the analyte. Insight into the mechanisms of analyte desorption and ionization was obtained by means of emission spectrometry and ion current measurements. Desorption and ionization mechanisms for this analyte appear to be identical for all three plasma sources. Emission spectra differ only in the intensities of various lines and bands. Desorption of solid analyte requires transfer of thermal energy from the plasma source to sample surface, in the absence of which complete loss of MS response occurs. For acetaminophen, helium was the best plasma gas, providing 100- to 1000-fold higher analyte response than with argon or nitrogen. The same trend was also evident with background ions (protonated water clusters). MS analyte signal intensity correlates with the ion density (expressed as ion current) in the plasma plume and with emission intensity from excited state species in the plasma. These observations support an ionization process which occurs via proton transfer from protonated water clusters to analyte molecules.
Keywords:Direct analysis in real time (DART)   Dielectric barrier discharge (DBD)   Atmospheric pressure rf glow discharge (APGD)   Ambient mass spectrometry (AMS)   Acetaminophen
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