A new technique that uses soundwaves to separate materials for recycling could help prevent potentially harmful chemicals leaching into the environment.
Researchers at the University of Leicester have achieved a major milestone in fuel cell recycling, advancing techniques to efficiently separate valuable catalyst materials and fluorinated polymer membranes (PFAS) from catalyst-coated membranes (CCMs).
This development addresses critical environmental challenges posed by PFAS—often referred to as „forever chemicals“—which are known to contaminate drinking water and have serious health implications.
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A new technique that uses soundwaves to separate materials for recycling could help prevent potentially harmful chemicals leaching into the environment.
Researchers at the University of Leicester have achieved a major milestone in fuel cell recycling, advancing techniques to efficiently separate valuable catalyst materials and fluorinated polymer membranes (PFAS) from catalyst-coated membranes (CCMs).
This development addresses critical environmental challenges posed by PFAS—often referred to as „forever chemicals“—which are known to contaminate drinking water and have serious health implications.