AI Article Synopsis
- X-ray ionization has been successfully introduced as a new source for differential ion mobility spectrometry (DMS), enhancing its application for on-site analysis.
- The study examined how various experimental factors like accelerating voltage and filament current affect ion peak formation, finding that the peaks from X-ray ionization closely match those from conventional nickel sources.
- Performance tests with model compounds showed that X-ray-based DMS can achieve competitive limits of detection, suggesting its viability as an alternative to traditional ionization methods.
Article Abstract
X-ray was utilized as an ionization source for differential ion mobility spectrometry (DMS) for the first time. The utilization of this ionization source increases the potential of DMS system for on-site based applications. The influence of experimental parameters (e.g. accelerating voltage, filament current, and separation field) on the analysis of model compounds was investigated and discussed. It was found that both the positive and the negative reactive ion peaks [RIP(+) and RIP(-)] formed during X-ray ionization are identical with those observed with the traditional Ni radioactive ion source. This is especially notable for RIP(-), because the chemistry provided by other nonradioactive sources in the negative mode is more complicated or even different than that observed with a Ni source. Increase of either filament current or accelerating voltage resulted in increased intensity of both RIP(+) and RIP(-). However, because of the materials used for construction of X-ray adapter the maximal level of filament current and accelerating voltage used in this study were limited to 700mA and 5kV, respectively. Analytical performance was determined with two model compounds (acetone and methyl salicylate) using X-ray and directly compared to Ni ionization source. When X-ray was coupled to DMS, calculated LOD values were found to be within the range of 0.17-1.52ppbv/v (concentration in the carrier gas). These values are competitive with those calculated for DMS equipped with traditional Ni radioactive ionization source. The obtained results are promising enough to ensure the potential of X-ray as ionization source for DMS.
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| http://dx.doi.org/10.1016/j.talanta.2016.10.024 | DOI Listing |
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