https://sciex.com/content/SCIEX/na/us/en


Perfluoroalkyl Acids in Drinking Water – EPA Method 537

Jul 26, 2016 | Blogs, Environmental / Industrial | 0 comments

The United States Environmental Protection Agency (EPA), under the 1996 Safe Drinking Water Act (SDWA), requires a new list of no more than 30 unregulated contaminants to be monitored by public drinking water systems. Known as the Unregulated Contaminant Monitoring Rule (UCMR), a new list is published every five years. The last rule, UCMR3, was published May 2, 2012, and is the focus of the following application note, “Analysis of Perfluoroalkyl (PFFA) Acids Specified under the UCMR3 Using the QTRAP® 6500 LC-MS/MS system,” which can be found in the Food and Environmental Compendium.

Overview
Using the guidelines laid out by EPA Method 537, “A Determination of Selected Perfluoroalkyl Acids in Drinking Water by Solid Phase Extraction and Liquid Chromatography/Tandem Mass Spectrometry (LC-MS/MS),” this application note describes the performance of the QTRAP 6500. Within the scope of EPA 537, there are 14 PFAAs. Six are specified under the UCMR3 monitoring list.

Process
Sample preparation and data processing were carried out according to EPA Method 537 without deviation unless specifically noted. The analysis was carried out using the QTRAP 6500 coupled with the Agilent 1260 HPLC with an Eksigent ULC 100 HTC-xt autosampler. Quantitation using MultiQuant ™ 3.0.

Conclusion
The lower the detection, the harder the QTRAP 6500 works for you as it easily meets the UCMR3 reporting limits. See what more it can do when you download the compendium. Download the compendium >

Better mRNA-LNPs: encapsulation efficiency, mRNA integrity and purity, lipid N-oxides and beyond

Lipid nanoparticles (LNPs) are widely used vehicles for mRNA-based therapeutics and vaccines. However, ionizable lipids used in LNPs can be susceptible to N-oxide impurities that can cause functional loss of the mRNA cargo.

Maximize NPS analysis with accurate mass spectrometry

LC-MS/MS is a powerful analytical tool in forensic toxicology testing that can support a variety of testing regimes such as screening, confirmation and quantitative workflows. More specifically, analysis of NPS using LC-MS/MS provides many advantages, including the ability to reliably detect new drugs and their metabolites from a variety of biological matrices.

Unlock the benefits of nominal mass spectrometry for NPS analysis

The development of analytical methods for the detection and quantitation of drugs and metabolites in a range of biological matrices is a challenging process. Forensic toxicology labs need a reproducible and reliable methodology to ensure the robustness of the data and the quality of the results. They also need robust and sensitive instrumentation that can detect drugs at trace levels with high specificity, especially when it comes to novel psychoactive substances (NPS), which can be difficult to monitor and control.

Posted by

0 Comments

Submit a Comment

Wordpress Social Share Plugin powered by Ultimatelysocial