Determination of the Transport Efficiency in spICP-MS Analysis Using Conventional Sample Introduction Systems: An Interlaboratory Comparison Study

In single particle inductively coupled plasma mass spectrometry (spICP-MS), the transport efficiency is fundamental for the correct determination of both particle number concentration and size. In the present study, transport efficiency was systematically determined on three different days with six carefully characterised gold nanoparticle (AuNP) suspensions and in seven European and US expert laboratories using different ICP-MS instruments and spICP-MS software. Both particle size-(TES)-and particle frequency-(TEF)-methods were applied. The resulting transport efficiencies did not deviate much under ideal conditions. The TEF method however systematically resulted in lower transport efficiencies. The extent of this difference (0-300% rel. difference) depended largely on the choice and storage conditions of the nanoparticle suspensions used for the determination. The TES method is recommended when the principal measurement objective is particle size. If the main aim of the measurement is the determination of the particle number concentration, the TEF approach could be preferred as it might better account for particle losses in the sample introduction system.

Automated summary

In single particle inductively coupled plasma mass spectrometry (spICP-MS), the transport efficiency is crucial for accurately determining particle number concentration and size. This study systematically determined the transport efficiency using different ICP-MS instruments and spICP-MS software in seven expert laboratories. The results showed that the choice and storage conditions of the nanoparticle suspensions used for determination significantly influenced the transport efficiency. The TES method is recommended for particle size measurement, while the TEF approach might be preferred for determining particle number concentration as it could better account for particle losses in the sample introduction system.