DETERMINATION OF LEGACY AND EMERGING PERFLUOROALKYL SUBSTANCES IN GROUND AND SURFACE WATERS USING LC-MS/MS WITH DIRECT INJECTION
Posters | 2019 | Waters | NACRWInstrumentation
Perfluoroalkyl substances (PFAS) are persistent environmental pollutants found in water, soil, and biota worldwide. Their unique chemical stability and bioaccumulative nature pose risks to human health and ecosystems. Regulatory agencies mandate detection at parts-per-trillion levels, driving the need for rapid, sensitive analytical methods that minimize contamination and maximize throughput.
This study aimed to adapt the ASTM 7979-17 protocol for direct injection LC-MS/MS analysis of both legacy and emerging PFAS in ground and surface waters. By eliminating extensive sample cleanup, the method seeks to accelerate analysis while maintaining the sensitivity required for regulatory compliance and environmental monitoring.
Sample Pretreatment:
LC-MS/MS Conditions:
Method Detection Limits (MDLs) for most PFAS were in the low ng/L range, surpassing ASTM 7979-17 reporting thresholds; 6:2 FTS could not be quantified due to background contamination. Trueness, assessed with isotope-labelled surrogates, ranged from 80% to 125%. Repeatability across 20 injections showed <10% RSD for all detected analytes. Quality control samples met all criteria except for 6:2 FTS.
This streamlined approach significantly reduces sample handling and risk of PFAS introduction from laboratory consumables. The high throughput and sensitivity enable routine compliance testing for environmental monitoring and support fast decision-making in water quality assessment.
Further enhancements may include large-volume injection to lower detection limits, expansion to a broader spectrum of novel PFAS, integration of high-resolution MS for non-target screening, and portable LC-MS platforms for on-site analysis. Automated workflow and data processing tools will further improve efficiency.
The direct injection LC-MS/MS method based on ASTM 7979-17 provides rapid, sensitive, and reliable quantification of a wide array of PFAS in ground and surface waters. Its minimal sample preparation enhances throughput and reduces contamination risk, making it suitable for regulatory and research applications.
LC/MS, LC/MS/MS, LC/QQQ
IndustriesEnvironmental
ManufacturerWaters
Summary
Significance of the Topic
Perfluoroalkyl substances (PFAS) are persistent environmental pollutants found in water, soil, and biota worldwide. Their unique chemical stability and bioaccumulative nature pose risks to human health and ecosystems. Regulatory agencies mandate detection at parts-per-trillion levels, driving the need for rapid, sensitive analytical methods that minimize contamination and maximize throughput.
Objectives and Overview
This study aimed to adapt the ASTM 7979-17 protocol for direct injection LC-MS/MS analysis of both legacy and emerging PFAS in ground and surface waters. By eliminating extensive sample cleanup, the method seeks to accelerate analysis while maintaining the sensitivity required for regulatory compliance and environmental monitoring.
Methodology and Instrumentation
Sample Pretreatment:
- Add 5 mL of water sample and 5 mL methanol into a 15 mL polypropylene vial.
- Filter the mixture through a PFAS-free syringe filter.
- Acidify and transfer to analysis vial without evaporation.
LC-MS/MS Conditions:
- LC system: ACQUITY UPLC I-Class Plus with PFC kit, ACQUITY CSH Phenyl Hexyl column (2.1×100 mm, 1.7 µm) at 35 °C.
- Mobile phases: A = 95:5 water:methanol + 2 mM ammonium acetate; B = methanol + 2 mM ammonium acetate; gradient from 100% A to 95% B over 17 min.
- MS system: Xevo TQ-XS, ESI mode (capillary voltage 1.0 kV, desolvation 500 °C, gas flows 1100 L/h and 150 L/h).
- MRM transitions optimized via QuanOptimize in MassLynx.
Results and Discussion
Method Detection Limits (MDLs) for most PFAS were in the low ng/L range, surpassing ASTM 7979-17 reporting thresholds; 6:2 FTS could not be quantified due to background contamination. Trueness, assessed with isotope-labelled surrogates, ranged from 80% to 125%. Repeatability across 20 injections showed <10% RSD for all detected analytes. Quality control samples met all criteria except for 6:2 FTS.
Practical Benefits and Applications
This streamlined approach significantly reduces sample handling and risk of PFAS introduction from laboratory consumables. The high throughput and sensitivity enable routine compliance testing for environmental monitoring and support fast decision-making in water quality assessment.
Future Trends and Applications
Further enhancements may include large-volume injection to lower detection limits, expansion to a broader spectrum of novel PFAS, integration of high-resolution MS for non-target screening, and portable LC-MS platforms for on-site analysis. Automated workflow and data processing tools will further improve efficiency.
Conclusion
The direct injection LC-MS/MS method based on ASTM 7979-17 provides rapid, sensitive, and reliable quantification of a wide array of PFAS in ground and surface waters. Its minimal sample preparation enhances throughput and reduces contamination risk, making it suitable for regulatory and research applications.
References
- Waters Application Note 720006329EN
Content was automatically generated from an orignal PDF document using AI and may contain inaccuracies.
Similar PDF
A DIRECT INJECT APPROACH FOR ANALYSIS OF LEGACY AND EMERGING PERFLUOROALKYL SUBSTANCES (PFAS) IN ENVIRONMENTAL WATER AND SOIL SAMPLES
2019|Waters|Posters
A DIRECT INJECT APPROACH FOR ANALYSIS OF LEGACY AND EMERGING PERFLUOROALKYL SUBSTANCES (PFAS) IN ENVIRONMENTAL WATER AND SOIL SAMPLES Kari Organtini, Ken Rosnack, and Douglas Stevens Waters Corporation, Milford, MA INTRODUCTION RESULTS AND DISCUSSION Soil Samples • Soil samples were…
Key words
fts, ftstelomer, telomersulfonates, sulfonatespfas, pfaspftreda, pftredawater, watersoil, soilclay, clayfosa, fosapftrida, pftridasamples, samplescarboxylates, carboxylatesfdea, fdeapfos, pfospfoa
Large Volume Direct Injection Method for the Analysis of Perfluorinated Alkyl Substances (PFAS) in Environmental Water Samples in Accordance with ASTM 7979-17
2020|Waters|Applications
[ APPLICATION NOTE ] Large Volume Direct Injection Method for the Analysis of Perfluorinated Alkyl Substances (PFAS) in Environmental Water Samples in Accordance with ASTM 7979-17 Kari Organtini, Gareth Cleland, and Ken Rosnack Waters Corporation, Milford, MA, USA APPLICATION BENEFITS…
Key words
pfas, pfassulfonate, sulfonatecarboxylate, carboxylatetelomer, telomerfouea, foueafdea, fdeafhea, fheafoea, foeaperfluorinated, perfluorinatedpfdoda, pfdodaspike, spikefosa, fosapfba, pfbaacid, acidalkyl
Perfluoroalkyl and Polyfluoroalkyl Substances (PFAS) Testing
2022|Waters|Guides
Perfluoroalkyl and Polyfluoroalkyl Substances (PFAS) Testing Application Notebook
Environmental Samples Drinking Water Biological Fluids Food Introduction EFFICIENT ANALYTICAL SOLUTIONS TO SUPPORT THE SAFETY OF FOOD, WATER SUPPLIES AND TO PROTECT THE ENVIRONMENT Welcome to Waters’ PFAS testing application notebook. The…
Key words
pfas, pfaspolyfluoroalkyl, polyfluoroalkyldrinking, drinkingpfos, pfosperfluoroalkyl, perfluoroalkylnotebook, notebookwater, watersubstances, substancesfluids, fluidsenvironmental, environmentalapplication, applicationtesting, testingbiological, biologicalread, readfood
Analysis of Legacy and Emerging Perfluorinated Alkyl Substances (PFAS) in Environmental Water Samples Using Solid Phase Extraction (SPE) and LC-MS/MS
2020|Waters|Applications
[ APPLICATION NOTE ] Analysis of Legacy and Emerging Perfluorinated Alkyl Substances (PFAS) in Environmental Water Samples Using Solid Phase Extraction (SPE) and LC-MS/MS Kari Organtini, 1 Ken Rosnack, 1 Douglas Stevens,1 and Euan Ross 2 1 Waters Corporation, Milford,…
Key words
legacy, legacypfas, pfascarboxylate, carboxylateemerging, emergingtelomer, telomerperfluorinated, perfluorinatedsulfonate, sulfonatewater, wateralkyl, alkylsubstances, substancesenvironmental, environmentalpftrida, pftridapftreda, pftredasamples, samplespfos
