Wednesday, December 11, 2024

Analysis reveals feasting fungi may revolutionize carbon-fiber recycling

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At the moment, carbon-fiber supplies are practically ubiquitous within the industrialized world, present in all the things from hockey sticks to passenger airliners. With a whole lot of hundreds of tons of carbon fiber produced all over the world yearly, scientists have sought helpful, cost-effective strategies for recycling the fabric.

However carbon fiber — strands of carbon atoms bonded collectively in a matrix — is especially robust to recycle into new helpful supplies.

“It is often a woven materials mixed with a matrix, typically manufactured from epoxy or polystyrene, that holds it collectively,” stated Berl Oakley, Irving S. Johnson Distinguished Professor of Molecular Biology on the College of Kansas. “You might have a mix of the material and the matrix, so the purpose is to recuperate the material for reuse and in addition dissolve the matrix with out creating one thing poisonous or wasteful. Ideally, you need to reclaim worth from it.”

Now, in a brand new biotechnological course of simply detailed within the Journal of American Chemical Society, Oakley at KU and collaborators on the College of Southern California have developed a chemical process for breaking down and eradicating the matrix from carbon fiber bolstered polymers (CFRPs) such that recovered carbon fiber plies exhibit mechanical properties corresponding to these of virgin manufacturing substrates.

One of many main matrix breakdown merchandise is benzoic acid, and to recuperate further worth, Oakley has developed a genetically modified model of the fungus Aspergillusnidulans that may feast on benzoic acid to supply a invaluable chemical compound referred to as OTA (2Z,4Z,6E)-octa-2,4,6-trienoic acid). In accordance with Oakley and his collaborators on the brand new paper, “This represents the primary system to reclaim a excessive worth from each the fiber material and polymer matrix of a CFRP.”

Oakley is a longtime collaborator with the paper’s lead writer, Clay Wang of the College of Southern California. “We have been working for years along with his lab to supply secondary metabolites in Aspergillusnidulans,” Oakley stated. “Secondary metabolites are compounds the fungus produces — penicillin is the archetypal secondary metabolite — which have organic exercise, like inhibiting its rivals and so forth. The Asperlin pathway is one thing that got here out of that work. Asperlin is a secondary metabolite. We managed to activate a specific pathway, and that was the product. We found that OTA is an intermediate within the pathway and OTA is a probably invaluable industrial compound.”

“OTA can be utilized to make merchandise with potential medical functions, like antibiotics or anti-inflammatory medication,” Wang stated in an announcement issued by USC. “This discovery is vital as a result of it reveals a brand new, extra environment friendly technique to flip what was beforehand thought-about waste materials into one thing invaluable that may very well be utilized in drugs.”

Subsequent, Oakley stated his KU lab will attempt to make their specialised fungus much more environment friendly, maintaining in thoughts wants for scalability and profitability if the brand new carbon-fiber recycling methodology is to be utilized on the industrial scale.

“Since this work started, we have developed strains which might be really higher than the unique ones,” he stated. “These newer strains will seemingly give higher outcomes, however we’ll have to do plenty of work to engineer this course of into the improved strains.”

At KU, Oakley was joined within the analysis by graduate pupil Cory Jenkinson. At USC, Wang’s co-authors had been Clarissa Olivar, Zehan Yu, Ben Miller, Maria Tangalos, Steven Nutt and Travis Williams.



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