Research breakthrough signals end of fossil fuel plastic with new plant protein substitute

NEW research published today in Nature Communications could signal the end of fossil fuel single-use plastics as the science behind a new plant protein substitute is made public.  

Researchers at the University of Cambridge Knowles Lab describe how they can create a polymer film from plant protein that is sustainable, scalable and 100 percent natural.  

Made entirely from plant protein which can be sourced as a by-product of the agriculture industry, the resulting material can be consumed in nature after use like any natural waste, leaving no pollutants behind.  

The material’s functionality is consistent with conventional plastic, but it requires no chemical cross-linking used in bio-polymers to give them the strength and flexibility of plastic.  

The chemicals used in cross-linking are often unsustainable and can even leave toxic pollutants behind once disposed of.  

The research shows how the scientists are able to naturally assemble plant proteins so the final structure is very similar to spider silk. The breakthrough is the first time these structures have been shown in a material that derives from plant protein.  

Through a process involving acetic acid and water, ultrasonication and heat, the plant proteins are transformed in an energy-efficient way using easily obtainable, sustainable ingredients. 

Xampla, the Cambridge University spin-out commercialising the technology, is developing its applications to replace single-use plastics including flexible packaging films, sachets, microcapsules found in home and personal care products, and carrier bags.  

The paper is the culmination of more than 10 years’ research into understanding how nature generates materials from proteins.  

The scientists were inspired by spiders’ silk which is weight-for-weight stronger than steel but has weak molecular bonds, meaning it can break down easily.  They sought to understand the building blocks of this natural phenomenon, with the aim to create a material with the same molecular properties. 

Professor Tuomas Knowles who led the research said: “One of the key breakthroughs is that we can supply this product on a large scale, and it can replace plastic in very specific applications. We have proved it’s possible to solve the single-use plastics problem.” 

Dr Marc Rodriguez Garcia, co-author of the paper and Xampla’s Head of Research said: “It’s amazing to realise that a discovery you make in a lab can have a big impact on solving a global problem. That’s essentially why we are doing this – we really love the science, but we also wanted to do something meaningful about solving the overwhelming problem of plastic waste.” 

Sian Sutherland, Co-Founder of international campaign group A Plastic Planet said: “This is a huge breakthrough for all the naysayers who want to back the status quo and still tout recycling as the answer to the plastic crisis.  

“We have to be forward-looking. We have to get excited about new technologies and materials because these are the innovations that will break our addiction to plastic. This is what the future must be about – no greenwashing, no fossil fuel reliance and new, scalable technologies that put the planet first.”  

For more information go to http://www.xampla.com/ or https://www.nature.com/ncomms/

Reference A. Kamada et al. ‘Self-assembly of plant proteins into high-performance multifunctional nanostructured films.’ Nature Communications (2021). DOI: 10.1038/s41467-021-23813-6 

Written by Kevin Gambrill

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