Abstract
The miniRUEDI is a portable mass spectrometer system designed for on-site analysis of gases in the environment during field work and at remote locations. For many gas species (e.g., He, Ar, Kr, N(2), O(2), CO(2)) the ion-current peak-heights measured with the mass spectrometer can usually be calibrated in terms of the partial pressures by simple peak-height comparison relative to a gas standard with well known partial pressures. However, depending on the composition of the analysed gases, the ion currents measured at certain m/z ratios may result from overlapping signals of multiple species (for example CH(4), O(2) and N(2) at m/z = 15 and 16; or Ne, Ar and H(2)O at m/z = 20 ). Here, we present a method extension to the existing miniRUEDI peak-height comparison in order to resolve such overlap interferences: • We developed and tested a data processing procedure for accurate deconvolution and compensation of such mass-spectrometric overlap interferences. • The method was incorporated into the miniRUEDI open-source software (ruediPy). • The method substantially improves the analytical accuracy in situations where mass-spectrometric interferences cannot be avoided.