As regulatory attention on PFAS is increasing rapidly, particularly under the upcoming EU PPWR (Packaging and Packaging Waste Regulation ), the plastic industry is required to demonstrate that materials and articles do not exceed PFAS‑related limits, even when the exact substances present are unknown.

New analytical capability

Norner is introducing a new analytical capability: Total Organic Fluorine (TOF) analysis by Pyrolysis‑GC/MS, further strengthening PFAS screening and regulatory support for materials and articles. Total Fluorine (TF) is often proposed as a standardized initial screening tool, but it will detect both organic and inorganic fluorine. PPWR is concerned with PFAS which are organic fluorine and therefore we focus on more selective and PFAS‑relevant analytical approaches, offering TOF analysis and PFAS target analysis to support defensible, risk-based decision making.

What is TOF and why it matters

TOF measures organic fluorine, providing a more relevant indicator of potential PFAS presence than bulk fluorine measurements alone. By excluding inorganic fluorine, TOF helps reduce false reassurance and supports better prioritisation for further PFAS testing. If TOF is confirmed <50ppm, the product is compliant with PPWR.

TOF is determined using Pyrolysis‑GC/MS, enabling:

• Direct analysis of solid materials without solvent extraction
• Robust screening of complex polymeric and composite materials
• Fast turnaround times suitable for compliance and product development needs

TOF can be used as a standalone screening tool or in combination with PFAS analysis, depending on the regulatory context and customer needs. This enables a risk‑based and cost‑efficient testing strategy, avoiding unnecessary advanced analysis while maintaining regulatory robustness.

Understanding TF, TOF and PFAS enforcement

The PPWR enforcement logic follows a stepwise concept, moving from broad fluorine measurements toward compound‑specific PFAS evaluation, as illustrated in the figure below.

TF represents total fluorine from all sources, including inorganic and organic fluorine. TOF is a subset of TF, focusing only on organic fluorine, which is directly relevant for PFAS. The final step involves targeted or total PFAS analysis, where individual PFAS compounds are identified and quantified against regulatory limits.

How Norner supports PFAS screening:

• TOF analysis by Py‑GC/MS
• Targeted and non‑target PFAS screening

TOF can be used as a standalone screening tool or in combination with PFAS analysis, depending on the regulatory context and customer needs. This enables a risk‑based and cost‑efficient testing strategy, avoiding unnecessary advanced analysis while maintaining regulatory robustness.

Typical application areas

The TOF method is suitable for a wide range of materials, including:

• Plastics and polymer compounds
• Coatings, elastomers, and composites
• Recycled materials and articles with unknown PFAS history

Contact us for further information on PFAS screening

Bavan Mylvaganam: bavan.mylvaganam@norner.no

Ole Jan Myhre: olejan.myhre@norner.no

post@norner.no