Setting a new horizon for PFAS workflow applications
Sensitive, robust, and cost effective PFAS analytical solutions to help you meet or exceed regulatory requirements or unveil the unknown.
Are you analyzing the targeted PFAS 20, 40,47 or 54 compounds in drinking water, screening for unknowns, or investigating PFAS in soil, air, or food? The discovery, detection, and quantification of PFAS substances has never been more important. Determining the best analytical solution for your PFAS analytical goals can be challenging. The optimal methods will vary depending on the sample, regulations, and project goals you are working towards. Discover sensitive, reliable, and cost-effective PFAS analytical solutions to help you meet or exceed regulatory requirements or uncover the unknown.
Watch John Quick from ALS Environmental discussing a sensitive, quantitative, and robust UK-compliant HRAM method for PFAS detection in water
Case Study: Orbitrap HRAM solution for targeted and untargeted contaminant analysis
Thermo Scientific™ Orbitrap™ HRAM instruments provide a one-instrument solution for unknown identification, untargeted and targeted screening, and targeted quantitation that is accurate with a simplified user experience that does not require complicated, time-consuming method development and sample preparation.
A comprehensive software workflow for non-targeted analysis of PFAS by HRMS
Discover untargeted PFAS workflow capabilities within Thermo Scientific™ Compound Discoverer™ software.
The incorporation of analysis techniques, best practises, PFAS databases, a custom scripting node for orthogonal discrimination and onboard visualization tools enabling a simplified approach for analysing PFAS substances.
PFAS-Quantitation in aqueous samples by LC-MS/MS following EPA Draft Method 1633
This application note demonstrates the measurement of 40 PFAS in 500 mL water samples at or below the method detection limits (MDLs) reported in U.S. EPA Draft Method 1633 by LC-MS/MS on the Thermo Scientific™ TSQ Quantis™ Plus MS.
Why is PFAS testing so challenging?
Setting a new horizon for PFAS workflow analysis
Finding the optimal PFAS workflow is challenging, depending on your project goals and sample type. In this brochure, discover the right PFAS solutions to meet your analytical goals.
High-throughput analysis of both neutral and ionic PFAS in ambient air using thermal desorption coupled to GC-MS
This application note demonstrates a high-throughput method for the simultaneous analysis of neutral (FTOH, FOSA) and ionic (PFCA, FTCA) per- and polyfluoroalkyl substances (PFAS) in air using thermal desorption coupled to GC-MS.
Extraction and analysis of poly- and perfluoroalkyl substances from soil
This customer application note shows that accelerated solvent extraction is an acceptable method for extracting a wide selection of PFAS, from 4-carbon to 14-carbon fluoroalkyl chain lengths and five different polar head-groups, from soil over a wide range of concentrations.
What do you need for PFAS testing?
There are numerous options available for PFAS testing, with the key factors to consider being sample type (water, soil, air, food, etc.) and whether the analysis involves targeted analysis or unknown screening. Find the right chemicals and consumables for routine PFAS testing.
PFAS data processing: Forever chemicals do not need forever analysis with the right equipment and software
It is important that labs are armed with a range of PFAS testing capabilities focused on known targets, confident identification of unknowns, and analysis of emerging threats. This Smart Note addresses critical considerations to help meeting the evolving needs for PFAS data analysis.
