PFAS Workflow

INDIVIDUALLY OR COMBINED

All-in-one Solutions for the PFAS Workflow

The technical equipment from LCTech is perfectly coordinated with a wide range of PFAS standards/regulations (such as US EPA 537.1, 533, 1633, DIN 38407-42) and ensures your success in mapping the complete PFAS workflow from extraction to automated clean-up and concentration.

PFAS Sample Prep: Think LCTech!
Excellence meets Experience

PFAS Workflow for Solid Samples

X-TRACTION PFAS

For extraction

D-EVA

For the sensor-controlled concentration of extracts

FREESTYLE SPE PFAS

For clean-up (e.g. Dual-SPE). Ideal with the EluCLEAN SPE columns

D-EVA

For sensor-controlled concentration to a few µL

FREESTYLE XANA PFAS

Also available as a TableTop version. Ideal with the EluCLEAN SPE columns

D-EVA Concentration

For sensor-controlled concentration to a few µL

Products for
PFAS Sample Preparation


X-TRACTION

X-TRACTION® PFAS

  • Best method for the extraction of long-chain PFAS
  • Better results compared to standard extraction methods
  • Fast and simple extraction of PFAS
FREESTYLE SPE PFAS

FREESTYLE SPE PFAS

  • Free of blank values due to PTFE-free materials (compliant with all common PFAS regulations/standards, such as US EPA 1633)
  • All SPE standard formats from 1 – 15 mL can be used on the SPE rack
  • Up to 4 bars of positive pressure when loading the samples on the column, enables the processing of samples containing non-dissolved sample matrix (e.g. for river water)
  • Double-walled needle for effecting rinsing during the quantitative transfer of the sample, and aspiration from containers closed with septa
  • Possibility of Dual-SPE (2 SPE columns one after the other within one method)
  • Unsupervised processing of a sequence also possible overnight via pressure monitoring (non-stop policy)
FREESTYLE XANA PFAS

FREESTYLE XANA PFAS

  • Free of blank values due to PTFE-free materials (compliant with all common PFAS regulations/standards, such as US EPA 1633)
  • Fully automated system for max. 24 samples of up to 1L in one sequence. High throughput due to parallel sample processing (e.g. 24 samples according to US EPA 537.1 in just 6.5 hours)
  • Time-optimised interlacing of the process with parallel processing of up to 7 samples
  • Up to 4 bars of positive pressure when loading the samples on the column, enables the processing of samples containing non-dissolved sample matrix (e.g. for river water)
  • Unsupervised processing of a sequence also possible overnight via pressure monitoring (non-stop policy)
  • All common 3 mL or 6 mL columns can be used.
  • Very good results for PFAS analysis, can also be used for a wide range of applications in water analysis (e.g. PAHs, pesticides, pharmaceutical analytes)
Freestyle

FREESTYLE XANA PFAS TableTop

  • Free of blank values due to PTFE-free materials (compliant with all common PFAS regulations/standards, such as US EPA 1633)
  • Fully automated system for 30 samples of up to 250 mL in one sequence. High throughput due to parallel sample processing (e.g. 30 samples according to US EPA 537.1 in just 9 hours)
  • Up to 4 bars of positive pressure when loading the samples on the column, enables the processing of samples containing non-dissolved sample matrix (e.g. for river water)
  • Unsupervised processing of a sequence also possible overnight via pressure monitoring (non-stop policy)
  • All common 3 mL or 6 mL columns can be used
EluCLEAN

EluCLEAN™ Columns

  • SPE column solutions to prepare PFAS samples in various matrices, such as drinking water, solid and aqueous environmental samples, food and feed samples
  • Proprietary SPE columns with various interactions to improve the recovery rates of long-chain PFAS (> C13) and neutral sulfonamide PFAS
  • Corresponds to international and national standards
  • Enrichment and clean-up with just one cartridge
  • Outstanding recovery rates and low standard deviations
D EVA

D-EVA

  • Sensor-controlled final vacuum
  • No analyte losses due to automatic switch-off at 400-800 µL
  • No introduction of PFAS from the environment during evaporation
  • Faster evaporation than with standard methods 23 samples of 40 mL methanol to 400 to 800 µl under 3 h
  • Standard laboratory equipment such as Falcon tubes can be used