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Considerations for Improved EPA Method 533 Accuracy and Precision for the Analysis of PFAS in a Lab Environment
This new method, done in collaboration with Weck Laboratories, employs a polymeric weak anion-exchange (WAX) sorbent in the SPE sample preparation step, which is selective for the more polar/acidic PFAS analytes. An additional distinction of EPA 533 is that it uses the isotope dilution technique to enhance method accuracy and robustness.

Considerations for Improved EPA Method 533 Accuracy and Precision for the Analysis of PFAS in a Lab Environment

This new method, done in collaboration with Weck Laboratories, employs a polymeric weak anion-exchange (WAX) sorbent in the SPE sample preparation step, which is selective for the more polar/acidic PFAS analytes. An additional distinction of EPA 533 is that it uses the isotope dilution technique to enhance method accuracy and robustness.
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Document Type:
Poster
Target Industries:
Separation Modes:
Reversed Phase, Solid Phase Extraction

Considerations for Improved EPA Method 533 Accuracy and Precision for the Analysis of PFAS in a Lab Environment

This new method, done in collaboration with Weck Laboratories, employs a polymeric weak anion-exchange (WAX) sorbent in the SPE sample preparation step, which is selective for the more polar/acidic PFAS analytes. An additional distinction of EPA 533 is that it uses the isotope dilution technique to enhance method accuracy and robustness.

Can't view? Disable your browser's pop-up blocker.