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Sampling Efficiency Improvement to an Electrospray Ionization Mass Spectrometer and Its Implications for Liquid Chromatography Based Inlet Systems in the Nanoliter to Milliliter per Minute Flow Range.

Bradley B SchneiderHassan JavaheriLeigh BedfordThomas R Covey
Published in: Journal of the American Society for Mass Spectrometry (2021)
This paper describes electrospray sampling efficiency measurements obtained on a triple quadrupole mass spectrometer equipped with a large atmosphere to vacuum sampling aperture and modified ion optics designed to confine the ions traveling in the intense expanding gas beam and prevent scattering losses in the entrance optics of the mass analyzer. Sampling efficiency, defined as the ratio of the number of ions captured in the first vacuum stage of the entrance optics to the number of analyte molecules entering the ion source, is a measure of sensitivity that takes into account both ionization efficiency at atmospheric pressure, the efficiency of transporting the ions from atmosphere to vacuum, and the efficiency of confining them in the subsequent gas expansion before mass analysis. Sampling efficiency measurements were conducted under high-performance liquid chromatography sample introduction conditions using columns and flow rates spanning the nanoflow (300 nL/min), microflow (3-60 μL/min), and milliflow (100-500 μL/min) ranges. The results show a convergence in the sampling efficiencies across this range, narrowing the sensitivity gap between the nanoflow and higher flow rate ranges largely because nanoflow sampling efficiency has been shown to be close to 100% for more than a decade, leaving little room for improvement. Under situations where sample volumes are not limiting, lower concentration detection limits can now be achieved with the higher flow rate systems versus nanoflow as a direct consequence of the higher sample loading capacity of the columns and the reduction in the difference in their ion sampling efficiencies.
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