REDUCTION OF POLYATOMIC INTERFERENCES IN INDUCTIVELY-COUPLED PLASMA-MASS SPECTROMETRY BY SELECTION OF INSTRUMENTAL PARAMETERS AND USING AN ARGON-NITROGEN PLASMA - EFFECT ON MULTIELEMENT ANALYSES
F. Laborda et al., REDUCTION OF POLYATOMIC INTERFERENCES IN INDUCTIVELY-COUPLED PLASMA-MASS SPECTROMETRY BY SELECTION OF INSTRUMENTAL PARAMETERS AND USING AN ARGON-NITROGEN PLASMA - EFFECT ON MULTIELEMENT ANALYSES, Journal of analytical atomic spectrometry, 9(6), 1994, pp. 727-736
The effect of instrumental parameters and argon-nitrogen plasmas on po
lyatomic ion formation has been studied in order to reduce their magni
tude in routine multi-element analysis without losing detection capabi
lity. Special emphasis was placed on the chlorine based polyatomic int
erferences on V, Cr, Zn, As and Se. A significant reduction in signals
from polyatomic ions was attained by using a high aerosol carrier gas
flow rate (0.955 I min-1) instead of the default flow rate (0.755 I m
in-1), or by adding nitrogen (8%) to the aerosol carrier flow. The ArC
l+ interference produced by 0.05% CI (the maximum concentration expect
ed in digested food stuff samples) was effectively removed by both met
hods and CIO+ and CIO2+ by addition of nitrogen. Detection limits for
elements along the mass range (from Li to U) were, on average, 2-3 tim
es higher with the mixed gas plasma. This slight degradation of detect
ion limits was not judged to be detrimental to multi-element determina
tions in five reference materials when the results from using an argon
-only plasma (with low and high aerosol carrier flow rates) were compa
red with the results from the argon-nitrogen plasma.