Abstract
The accurate determination of platinum‐group elements (PGE), rhenium and gold is important in both fundamental research and ore deposit studies. Questions have been raised by some authors as to whether the nickel‐sulfur fire assay technique (NiS‐FA) efficiently collects all the PGE. On the other hand, most isotope dilution (ID) techniques can only treat small test portion masses (2 g was used for high‐pressure asher digestion; HPA) and this makes them more vulnerable to nugget effects. We determined PGE concentrations in ten reference materials with the aim of comparing the performance characteristics of the two methods. Both methods determine Ru, Pd, Os, Ir and Pt and we found that there were no significant systematic differences in the recovery. The advantages of NiS‐FA were that: (a) it is capable of determining Rh and Au; (b) the relatively large test portion mass (15 g) reduces the nugget effect and (c) it is faster and less expensive than HPA‐ID. The advantages of HPA‐ID were that: (a) it determined Re and (b) it had low level blanks, lower detection limits and hence better precision in low‐level homogeneous samples. Each technique had advantages and limitations; they should be considered as complementary rather than competing techniques.
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