How To Replace PFAS
Hardly any other chemical substance can compete with PFAS, due to their unique properties. That explains why it is so hard to find a replacement for these toxic “forever chemicals”, which accumulate in the environment and do not break down over time. A team at the Fraunhofer Institute for Manufacturing Technology and Advanced Materials IFAM has succeeded in developing solutions that hold great promise of targeted substitution for PFAS in fields including medical engineering.
The planned ban on the use of per- and polyfluoroalkyl substances (PFAS) in the European Union is having a drastic effect on health technology. These substances have many properties essential for use in medicine, so they are currently used in many standard products. In light of the time it takes to launch a product on the market — generally well beyond the transitional periods that have been proposed to date — the medical technology industry needs to act quickly to find alternatives that can be implemented quickly and meet the sector’s stringent safety standards.
Harnessing proven methods for medical applications
Researchers at the Fraunhofer IFAM have set themselves the task to support companies in these efforts. Dr. Ralph Wilken, Head of the Surface Technology division at the institute, is an expert on PFAS. Long before the toxic substances started attracting negative attention, he knew he wanted to find alternatives. The results have been impressive: “We have now been using organosilicon chemistry for more than two decades to find effective substitutes for a broad spectrum of positive properties of PFAS,” Wilken notes.
The solutions that Wilken and his colleagues have developed are being introduced right now in sectors such as the food industry, and they meet the standards required for use in medical technology: They are biocompatible and therefore both tolerated by the body and inert, i.e., they do not or barely react with other substances. The experts have also succeeded in developing numerous coatings that feature electrically insulating properties and can be optimally adjusted in how they interact with cells via their surfaces.
Custom-fit solutions
Whether in products themselves or used in production, one key point when it comes to replacing PFAS with no loss of functionality is making sure the solution is customized for the specific use case: “We can analyze the component that needs to be replaced in detail, thereby zeroing in on a substitute that exactly matches the desired properties. At the same time, we can provide our partners with in-depth support in the form of proven processes, our knowledge of surfaces and functional materials, and our experience with which materials can be replaced effectively and how. It doesn’t take long to get to a result that customers can work with,” explains Dr. Kai Borcherding, Head of the Medical Technology and Life Sciences business unit at Fraunhofer IFAM.
The experts are scheduled to attend the COMPAMED 2024 trade show from November 11 to 14 to present their solutions at the joint Fraunhofer booth at Booth G10, Hall 8a. The solutions on display will include innovative coatings, the ReleasePLAS® plasma polymer functional release coating, which enables release agent-free production of plastic components, the PLASLON® non-stick coating, and solutions for functionalization of surfaces such as silicone modified by vacuum ultraviolet (VUV) radiation.
ReleasePLAS®: Register number DE 30 2013 037 673
PLASLON®: Register number EM 019027070
Weitere Informationen:
https://www.fraunhofer.de/en/press/research-news/2024/november-2024/how-to-repla…
Media Contact
All latest news from the category: Medical Engineering
The development of medical equipment, products and technical procedures is characterized by high research and development costs in a variety of fields related to the study of human medicine.
innovations-report provides informative and stimulating reports and articles on topics ranging from imaging processes, cell and tissue techniques, optical techniques, implants, orthopedic aids, clinical and medical office equipment, dialysis systems and x-ray/radiation monitoring devices to endoscopy, ultrasound, surgical techniques, and dental materials.
Newest articles
NASA: Mystery of life’s handedness deepens
The mystery of why life uses molecules with specific orientations has deepened with a NASA-funded discovery that RNA — a key molecule thought to have potentially held the instructions for…
What are the effects of historic lithium mining on water quality?
Study reveals low levels of common contaminants but high levels of other elements in waters associated with an abandoned lithium mine. Lithium ore and mining waste from a historic lithium…
Quantum-inspired design boosts efficiency of heat-to-electricity conversion
Rice engineers take unconventional route to improving thermophotovoltaic systems. Researchers at Rice University have found a new way to improve a key element of thermophotovoltaic (TPV) systems, which convert heat…