电晕放电
解吸电喷雾电离
环境电离
电喷雾电离
电离
萃取电喷雾电离
日冕(行星地质学)
大气压化学电离
飞镖离子源
分析化学(期刊)
大气压力
环境化学
直接电子电离液相色谱-质谱联用界面
离子源
化学
质谱法
化学电离
离子
色谱法
电子电离
有机化学
天体生物学
气象学
电极
物理
质谱中的样品制备
物理化学
维纳斯
作者
Е. Н. Николаев,Leah S. Riter,Brian C. Laughlin,Eric Handberg,R. Graham Cooks
摘要
A corona discharge ion source operating at atmospheric pressure in the point-to-plane configuration was constructed by reconfiguring the ion source of a commercial electrospray ionization (ESI) quadrupole mass spectrometer. This new source allows direct air analysis without modification to the mass spectrometer. Detection and quantitation of semi-volatile compounds in air is demonstrated. The analytical performance of the system was established using the chemical warfare agent simulants methyl salicylate and dimethyl methylphosphonate. Limits of detection are 60 pptr in the negative-ion mode and 800 pptr in the positive-ion mode for methyl salicylate and 800 pptr in the negative-ion mode and 3.6 ppb in the positive-ion mode for dimethyl methylphosphonate. A linear response was observed from 60 pptr to 8 ppb for methyl salicylate in air in the negative-ionization mode. Cluster ion formation versus production of analyte ions was investigated and it was found that dry air or an elevated capillary interface temperature (130 degrees C) was needed to avoid extensive clustering, mostly of water. Reagent gases are not needed as proton sources, as is usually the case for atmospheric pressure chemical ionization, and this, together with the simplicity, sensitivity and speed of the technique, makes it promising for miniaturization and future field studies.
科研通智能强力驱动
Strongly Powered by AbleSci AI