High-Precision
Measurements of <sup>44</sup>Ca/<sup>40</sup>Ca Using Multiple-Collector
Inductively Coupled Plasma Mass
Spectrometry without Collision-Cell Technology
Herein, we present a new method for determining the Ca
isotopic
composition of geological samples. To eliminate matrix elements from
Ca, a column chromatography method was developed using a N,N,N′N′
tetraoctyl-1,5-diglycolamide (TODGA) resin. The Ca isotopic compositions
were measured by a multiple collector inductively coupled plasma mass
spectrometry (MC-ICP-MS) without collision cell equipment, especially
that direct measurement to 44Ca/40Ca can be
achieved. To mitigate the interference from 40Ar during 40Ca measurement, the cold plasma technique was used to suppress
the Ar+ generation, resulting in a background Ar+ intensity of <300 mV, in contrast to the conventional hot plasma
conditions, which typically yield thousands of volts for Ar+ intensities. Given the potential for a concentration mismatch between
the sample and bracketed standard solutions to cause an intensive
shift in measured Ca isotopic compositions, a correction for the [Ca]
match is needed. To avoid matrix effects arising from residue matrix
elements, it is crucial to limit the concentrations below 1% of Ca
for most matrix elements (including Al, Mg, K, Na, and Sr) and below
1‰ for Fe. Notably, the tolerance of residue Sr is effectively
improved compared to measurements with CC-MC-ICP-MS and traditional
Hot-plasma-SSB-MC-ICP-MS methods with the conventional hot plasma
technique, thereby lowering the complexity of column chemistry. The
measured δ44/40Ca, δ44/42Ca, and
ε40Ca values for eight reference materials agree
well with previously reported values within analytical uncertainties.
This method demonstrates long-term precision is better than 0.10‰
(two standard deviations) for both δ values (i.e., δ44/40Ca and δ44/42Ca). We anticipate that
the proposed method will benefit the growth of the Ca isotope data
set and foster an increase in the application of Ca isotope in Earth
science studies