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Emissions of PFAS from fluoropolymer-coated cookware: Analytical advances and findings
Webinar
Categories: Webinar PFAS Environmental TD-100 xr Sorbent tube-based UNITY-xr UNITY-ULTRA-xr Thermal desorption

Emissions of PFAS from fluoropolymer-coated cookware: Analytical advances and findings

On-demand webinar

Discover how advanced thermal desorption (TD)–GC–MS can overcome the challenges faced with the analysis of PFAS, and the implications of these results for consumer safety.

Watch on-demand webinar

Emissions of PFAS from fluoropolymer-coated cookware: Analytical advances and findings

Event Overview

PFAS compounds are known for their persistence and toxicity and can pose serious health and environmental risks. This has led to an increased interest in their analysis in recent years. However, accurately detecting and quantifying PFAS in air can be a challenge for GC–MS analysts, because of their low concentrations and the nature of the compounds themselves.

In this webinar, Sarah Enge and Professor Thomas J. Simat, Food Science and Food Contact Material group at the Technische Universität Dresden, and Carlos Gil, Markes International, discuss recent advances in the research into PFAS emissions from fluoropolymer-based non-stick coatings in both cookware and food contact materials, such as baking paper. They will discuss how advanced thermal desorption (TD)–GC–MS overcomes the challenges faced with the analysis of PFAS, and the implications of these results for consumer safety and regulatory standards.

By watching this presentation, you will learn:

  • The latest and best practices for trace-level sampling and analysis of food contact materials subject to high temperatures
  • How advanced thermal desorption (TD)–GC–MS techniques can overcome the challenges faced in PFAS analysis
  • Analytical considerations for consumer safety and regulatory standards

Who should watch?

  • Researchers interested in PFAS and PFAS monitoring
  • Laboratory and project managers working with PFAS
  • Analysts monitoring food contact materials at high temperature
  • Environmental consultants

Presenters

Sarah Enge
PhD Candidate, TU Dresden

Sarah Enge is currently pursuing her PhD at TUD Dresden University of Technology, specializing in food science and food contact materials. She holds a Diploma in Food Chemistry from the same institution, where she conducted research on PFAS analysis and the migration of fluorinated compounds from cookware. Her current research focuses on the migration of PFAS and other compounds from food contact materials in high-temperature settings.

Prof. Dr habil. Thomas J. Simat
Chair of Food Science and Food and Skin Contact Materials, TU Dresden

Professor Simat is a renowned researcher in food contact materials, focusing on specific migration from materials such as plastics, coatings, elastomers, inks, and paper. His research also includes the sensory evaluation of olfactory active volatile organic compounds (oVOCs) in consumer products. He holds a PhD in Food Chemistry and has been the Chair of Food Science and Food and Skin Contact Materials at TU Dresden since 2003. He lectures on subjects including nutritional biochemistry, the chemistry of food contact materials, their legal regulations and sustainability, and sensory evaluation techniques. Professor Simat is an active member and chairman of several scientific committees and advisory boards focusing on consumer products and food contact materials.

Carlos Gil
Business Development Manager DACH/EMEAI, Markes International GmbH

Carlos is a professional with over 20 years' experience in analytical chemistry with a focus on sample preparation and sample introduction techniques mainly for GC–MS. He’s a graduate engineer in Applied Chemistry and is currently Business Development Manager for Schauenburg Analytics (the parent company of Markes International), supporting customers and partners in finding the best possible analytical solutions, following new analytical trends, and initiating collaborations.

Watch on-demand webinar

Emissions of PFAS from fluoropolymer-coated cookware: Analytical advances and findings