Captiva EMR PFAS Food Cartridges: Superior PFAS Analysis Simplified
Captiva EMR PFAS Food cartridges were designed specifically for the analysis of Per- and Polyfluorinated Substances (PFAS) in food. The high matrix removal efficiency of Captiva EMR PFAS Food is ideal for various and complex food matrices. Agilent's legacy award-winning Enhanced Matrix Removal (EMR) passthrough cleanup provides comprehensive chemical filtration. Agilent’s unique sorbent chemistry and formulation has been specifically optimized and verified for PFAS analysis in food and animal feed matrices.
Two Captiva EMR PFAS Food cartridge types (I and II) were developed to cover the large variety of food matrices. Captiva EMR PFAS Food I cartridges are recommended for fresh produce and other fresh processed matrices. Captiva EMR PFAS Food II cartridges are ideal for animal origin food, dry plant origin food, and other complex food matrices
Features:
- Offers two options for various food matrices based on complexity
- Simplifies workflow with easy cartridge passthrough cleanup
- Eliminates the need for QueChERS dSPE and solid phase extraction (SPE) clean-up steps
- Increases PFAS recovery to support accurate and precise PFAS quantitation
- High sample volume recovery for easy adoption of sample post-concentration to meet ultralow LOQs
- Cartridge PFAS cleanliness eliminates potential contamination from product use to support ultralow LOQs
- Cartridge PFAS cleanliness and PFAS recovery specifications included on every Certificate of Analysis (CoA) and included in every box
- Offers Agilent’s legacy of award-winning Enhanced Matrix Removal (EMR) innovation
- Seamless integration into Agilent PFAS solutions
Easy selection guide
Captiva EMR PFAS Food I | Captiva EMR PFAS Food II |
340 mg, 6mL (PM: 5610-2230) | 750 mg, 6mL (PM: 5610-2232) |
Perfect choice for: • Fruits • Vegetables • Baby Food • Beverages • Juices | Perfect choice for: • Milk • Egg • Infant formula • Meat • Fish and seafood • Animal feed • Edible offal • Edible oils |
* Recommended for methods that require a large sample volume to achieve higher post-concentrations (>10x)