Bond Elut PFAS WAX/Carbon S SPE Cartridges
Bond Elut dual-phase SPE (Solid Phase Extraction) cartridges feature two of Agilent’s innovative sorbents – the award-winning polymeric weak anion exchange (WAX) and proprietary advanced hybrid carbon material, Carbon S – to provide excellent extraction performance and flow rates for a broad range of per- and polyfluoroalkyl substances (PFAS) compounds.
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Designed specifically to meet the stringent requirements of EPA Method 1633, this dual-phase approach ensures precise and reliable results for PFAS analysis in various environmental matrices including non-potable water samples, soils/solids, and tissues.
Bond Elut PFAS WAX/Carbon S products undergo extensive quality control measures, including rigorous testing for PFAS recovery and cleanliness. This ensures minimal interferences and low detection levels, providing the consistency, reliability, and robustness needed for accurate and reliable PFAS analysis in compliance with stringent regulatory methods.
Agilent offers a diverse selection of PFAS WAX/Carbon S products, allowing you to choose the perfect solution for your specific application and budget. The range includes layered products with PFAS WAX on top and Carbon S on the bottom for aqueous samples. Agilent also offers layered products with Carbon S on top and PFAS WAX on the bottom for soil and more complex matrices. Additionally, cost-effective PFAS WAX and Carbon S blended or mixed bed products are available, suitable for all EPA Method 1633 matrix types. This flexibility ensures you can find the right product to meet your laboratory's unique needs.
Features:
- Compliant with EPA Method 1633
- Rigorous quality control testing for PFAS recovery and cleanliness ensures minimal interference and low detection levels for a broad range of PFAS compounds
- Excellent recovery and reproducibility for PFAS extraction from various environmental matrices, including non-potable water, soil, sediment, biosolids, and tissues
- Cartridges (6 mL) available in three layered and two blended (mixed bed) formulations
- Seamless fit into the Agilent PFAS workflow solution
- Compatible with solid phase extraction (SPE) automation workflows
Brochures
PFAS analysis without compromise
Explore sample prep solutions from Agilent Technologies that meet the challenges of a regulated PFAS landscape for environmental PFAS analysis.
Comparison of dual sorbent solid phase extraction for PFAS applications
Many laboratories have opted to combine polymeric weak anion exchange (WAX) and graphitized carbon black (GCB) into single solid phase extraction (SPE) cartridges to streamline sample preparation and facilitate automation for the determination of Per- and Polyfluoroalkyl Substances (PFAS) in environmental samples. The Agilent PFAS WAX and Carbon S sorbents are specifically manufactured for PFAS applications and are lot-tested to ensure low PFAS residue and maximum recovery.
The extraction performance of the dual-phase Agilent Bond Elut PFAS WAX/Carbon S SPE cartridges are comparable to other commercial cartridges, ensuring seamless integration into existing workflows while assuring optimal performance for PFAS applications.
Determination of per- and polyfluoroalkyl substances in soil and sediment
Discover a method that adheres to the criteria of US EPA Method 1633 and meets all QC requirements to support the use of blended dual-phase SPE cartridges as a viable alternative for PFAS extraction in solid environmental matrices.
Automated solid phase extraction of PFAS from aqueous samples
Explore the findings from a study that evaluated five solid phase extraction (SPE) protocols for analyzing PFAS in aqueous samples, in alignment with US EPA Method 1633. It compared two-step sample prep leveraging Bond Elut PFAS WAX cartridges and loose Carbon with Bond Elut dual-phase PFAS WAX/Carbon S cartridges in both layered and blended formats. The study demonstrated how automated SPE with optimized sample prep consumables enhances efficiency, accuracy, and repeatability in PFAS testing across diverse environmental matrices.
