The University of Manchester has been awarded over £1.3 million to develop technologies that could recover valuable materials from hard-to-recycle waste including disposable vapes and cars.
The three‑year project, REMOVE‑UM: REcovering MOlecular ValuE from Unrecycled Multi‑materials, funded by EPSRC and Defra will develop new technologies to tackle some of the most challenging waste products.
Recycling has the potential to recover significant value from materials at the end of their life, playing a crucial role in building a more sustainable future. However, while current systems are effective for simple, single materials that can be easily sorted and cleaned, they struggle to deal with complex, multi-material products.
Michael Shaver, Project Lead and Professor of Polymer Science at The University of Manchester, explains: “Recycling to recover value from materials at end-of-life is a tantalising component of a sustainable future. However, multi-material products – vapes, cars, batteries, furniture – comingle a host of plastics, metals, glass, ceramics and other materials designed to meet ever-increasing consumer demand for low-cost, high-performance, lightweight, aesthetically pleasing consumer goods. These staggeringly complex multi-materials are reaching their end-of-life with no strategy to facilitate the (re)integration of their components, materials or molecules into a circular economy.
“Developing an economically viable and environmentally advantageous end of-life for multi-materials is vital. However, to achieve this in a just manner, it is essential we understand economic, societal, and environmental outcomes, coupling systemic approaches to ambitious fundamental research.”
The REMOVE‑UM project will take a fundamentally new approach, developing methods to break down these materials at a molecular level and recover valuable components that can be reused.
The work will combine expertise from across The University of Manchester, bringing together specialists in chemical recycling, catalysis, sustainability assessment and materials science.






