Resolve challenging interferences with the XHR™ option for the Thermo Scientific™ Neoma™ MC-ICP-MS.
Hydrides present the most challenging interferences to effectively resolve, and these interferences can affect high-precision isotope ratio measurements of silicon, magnesium, chlorine, and potassium, among other elements. The XHR option is optimized to resolve interferences introduced by hydrides and other compounds.
When combined with the peak position and mass bias stability of the Neoma multicollector inductively coupled plasma mass spectrometer (MC-ICP-MS), your isotope ratio measurements are performed accurately, precisely, and with high resolution.
This option enables interference-free resolution of isotope ratio measurements and improves readout accuracy. Due to the enhanced resolution of the XHR option, hydride-generated interferences are minimized.
Pair the XHR option with the Neoma MC-ICP-MS and still enjoy all the benefits you've come to expect with this mass spectrometry system, including its high-resolution double-focusing analyzer, fully flexible detection system, and sophisticated software control.