Scientists at the СƵ are to develop ‘plastic-eating’ enzymes that could help solve the ever-growing problem of waste polyester clothing.
6 February 2023
3 minutes
Polyester is the most widely-used clothing fibre in the world but is currently not a sustainable textile option and will likely end up discarded in landfill or polluting the environment. It is made from polyethylene terephthalate (PET), one of the most common consumer plastics.
Researchers at the University’s Centre for Enzyme Innovation have already developed enzyme technology to reduce single use plastics, including PET, to their chemical building blocks, leading to safe and energy efficient recycling. Now they have set their sights on creating a similar process for polyester textiles.
The process of recycling synthetic fabrics using enzymes will not be an easy one. It is estimated that these textiles account for 60 per cent of clothes that are worn (: towards a circular economy for synthetic textiles in Europe), and are often chosen for durability.
The addition of dyes and other chemical treatments make it even harder for these tough oil-based materials to be ‘digested’ in a natural process. Developing enzymes that can efficiently ‘eat’ polyester clothing, without energy intensive pre-treatment, is the biggest challenge.
Professor Andy Pickford, Director of the Centre for Enzyme Innovation at the СƵ said: “We will develop enzymes that can deconstruct the PET in waste textiles, tolerating the challenges that this feedstock poses, namely its toughness and the presence of dyes and additives.
We want a system that uses plastic in the same way we use glass or aluminium cans – infinitely recycled. The ultimate aim is to close the loop – however, this requires not only the technology but also the will to do so.
Professor Andy Pickford , Director of the Centre for Enzyme Innovation at the СƵ
“We will test the compatibility of our engineered enzymes with additives, dyes and solvents to select those enzymes that are best suited to polyester textile deconstruction. Then we will apply these enzymes to appropriately pretreated waste polyester textiles in laboratory-scale bioreactors to evaluate the potential and limitations of scaling up the technology.”
Clothing has some of the lowest rates of recycling, with much of it being incinerated or ending up in landfill. Whilst it is possible to turn good quality oil-based textiles into carpets and other products, current recycling methods are highly energy intensive. Scientists hope that enzymes developed at the СƵ will help them create a environmentally-friendly circular economy for plastic based clothing.
Professor Pickford said: “Our research will establish the feasibility of using enzymes to deconstruct the PET in waste textiles into a soup of simple building blocks for conversion back into new polyesters, thus reducing the need to produce virgin PET from fossil-fuel based chemicals. This will enable a circular polyester textiles economy and ultimately reduce our dependence on taking oil and gas out of the ground.
“We want a system that uses plastic in the same way we use glass or aluminium cans – infinitely recycled. The ultimate aim is to close the loop – however, this requires not only the technology but also the will to do so."
The research, which is funded by the (BBSRC), will start at the end of January 2023 and last for 18 months. The University team will work with project partners , who will provide expertise in natural solutions to sustainability challenges, and Sports clothing, who will share their knowledge of fabric dyes and provide samples of end of life polyester textiles.