Selenium testing for total recoverable concentrations by conventional ICP-MS techniques is extremely prone to mass spectral interferences. The plasma gas (argon) and constituents of the sample matrix (calcium, carbon, chloride, sulfur, etc.) can easily combine to form polyatomic ions with the same mass-to-charge ratios as the various isotopes of selenium, resulting in false-positives and elevated detection limits.
The table below lists the different isotopes of selenium and the common interferences that can affect measurements at those isotopes.
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Selenium Related News
The Importance of Low Quantitation Limits for Compliance Measurements
On November 9th one of Brooks Applied Labs’ Technical Services staff, Ben Wozniak, spoke at the North American Metals Council – Selenium Working Group on the critical importance of quantitation limits (QLs) when performing analyses for regulatory compliance. Because...
Dietary Selenium and COVID-19 Outcomes
A recent epidemiological study showed a strong correlation between selenium intake and COVID-19 mortality. Statistical analyses conducted on cure rates in various regions in China showed significantly lower cure rates in regions where the populations are known to have...
Concerned About Elemental Selenium?
When evaluating the selenium (Se) speciation at a site, sometimes things don’t add up – that is, the sum of detected Se species might be significantly lower than the associated dissolved Se result. Incomplete mass balances are often concerning, since they raise...
2019: Year in Review
The monthly Brooks Applied Labs (BAL) newsletter contained many interesting and informational articles over the past year. To start off 2020, here's a recap of the most popular newsletter pieces from the past year (click on link for the full article): Choosing the...
Method Spotlight: Selenium Speciation of FGD Wastewaters
Coal usually contains high levels of selenium, particularly from sources that are also high in sulfur. This results in waste streams from coal-fired power plants having selenium concentrations that far exceed industrial discharge limits. Removal of selenium from these...