Wie Mikroben Plastik abbauen und verwerten können renewable-carbon.eu/news/?p=172700 #biorecycling #enzyme #kreislaufwirtschaft #mikroben #pilze #recycling #RenewableCarbon

Bio-Recycling von Kunststoff: Mikroben machen aus Plastik neue Wertstoffe - Es gibt verschiedene Methoden, gebrauchtes Plastik sinnvoll zu verwerten. ... #biorecycling #Kunststoffrecycling #Mikroben
recyclingportal.eu/archive/93728

CARBIOS and Wankai New Materials, a subsidiary of Zhink Group, are committed to the large-scale deployment of CARBIOS’ PET biorecycling technology in Asia renewable-carbon.eu/news/?p=170655 #biobased #biorecycling #circulareconomy #petrecycling #plastics #recycling #RenewableCarbon

Carbios + Wankai: Neue Anlagen für PET-Biorecycling in Asien in Planung renewable-carbon.eu/news/?p=170654 #biobasiert #biorecycling #kreislaufwirtschaft #kunststoffe #petrecycling #recycling #RenewableCarbon

Feeding off spent battery waste, a novel bacterium signals a new method for self-sufficient battery recycling A unique bacterium that thrives in highly acidic environments feeds on spent battery "waste," making it a promising new method for self-sufficient battery recycling, according to new research from Boston College chemists.

✨Acid-loving bacteria *eat* old batteries?!🤯 Boston College research unveils a self-recycling solution! Nature's tiny tech could revolutionize waste! ♻️ #biorecycling

Source: phys.org/news/2025-10-spent-batte...

New research alert

#plasticwaste #textiles #enzymes #greenchemistry #PET #biorecycling #recycling #plastics

doi.org/10.1039/D5FD...

It's a small step toward a more sustainable way of dealing with plastic waste & that could help build a more circular economy.

Big thanks to our amazing team & collaborators!
4/4
#Sustainability #PlasticWaste #Enzymes #Biorecycling #RecyclingInnovation #GreenChemistry #CircularEconomy #TextileWaste

Engineered enzyme efficiently recycles PET bottles and blended fibers at moderate temperatures A research team has successfully engineered a novel PET hydrolase enzyme, PET2-21M, achieving a remarkable improvement in the biodegradation of bottle-grade polyethylene terephthalate (PET) plastics. High activity towards PET/cotton and PET/polyurethane (PU) textile blends was also demonstrated separately with the closely related variant PET2-14M-6Hot.

✨Scientists bio-engineered enzymes (PET2-21M & PET2-14M-6Hot) to *devour* plastic! ♻️ Breaking down bottles & textiles… a future free from plastic waste? 🤯 #biorecycling

Source: phys.org/news/2025-07-enzyme-effi...

This week I have the pleasure of training Fernanda Lopes de Figueiredo and a fellow MRes student on the Eppendorf BioFlo 120.

We're fermenting 5 L E. coli for protein expression 😀

#bioreactors #biotechnology #proteinExpression #plasticwaste #biorecycling

About us - P3EB

If you are interested in #plastic degrading #enzymes and #biorecycling, check out the link to learn more about us and our project!

p3eb.org.uk/about-us/

I am very proud and grateful to be a part of this incredible Engineering Biology Mission Hub

#engineeringBiology #plasticwaste