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Doppelgänger creates polystyrene substitute from plastic-eating mealworms

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Chitofoam cup by Doppelgänger made from mealworm exoskeleton next to a polystyrene cup

Charlotte Böhning and Mary Lempres of design duo Doppelgänger have developed a bioplastic version of polystyrene foam that is made from the exoskeleton of mealworms and breaks down in soil in a couple of weeks.

The material, called Chitofoam, is shock-absorbent, water-resistant and can be formed into cups, foam peanuts and other packaging, much like its fossil-based counterpart.

Doppelgänger created the bioplastic to offer a backyard-compostable alternative to traditional expanded polystyrene (EPS).

Chitofoam packaging materials by Doppelgänger made from mealworm exoskeletonChitofoam can be turned into cups (top image) and packaging materials (above)

Regular EPS, of which Styrofoam is the most well-known brand, is difficult and uneconomical to recycle, meaning it ends up occupying around 30 per cent of the space in our landfills.

"At the end of its short life, polystyrene is not accepted by recycling centres and is undesired by landfills," Lempres told Dezeen. "It is a problematic plastic with no second life that affects future generations, our environment and our future earth."

While polystyrene is made from petroleum-based styrene, which the World Health Organisation has deemed a "probable carcinogen," Chitofoam is derived from a biopolymer called chitin, which mealworms use to build their strong yet pliable exoskeleton.

Chitofoam peanuts in a bag made from chitofilmIt can also be formed into packaging peanuts, much like traditional polystyrene

Doppelgänger says the bioplastic foam could be made from any mealworm – the larval form of the mealworm beetle – or other insect or crustacean with a chitin-rich shell, such as lobsters and beetles.

Böhning and Lempres made their version from the mealworms living in their own homemade biodigester, which the industrial design students developed to dispose of the polystyrene modelling foam and packaging used in their studio.

This harnesses mealworms' natural ability to digest and break down polystyrene using their gut bacteria, which was documented by researchers from Stanford University in 2015.

Mealworms eating styrofoam peanutsMealworms can safely digest polystyrene plastic

"It started off quite simply as a tank with 1,000 mealworms in which we put our waste foam, a material that is unfortunately abundant in design school," Böhning said. "It has gradually grown to include tiered-drawers and many more worms."

"The mealworms can help divert polystyrene waste from landfills and natural environments," she continued. "They can safely and efficiently digest the polystyrene foam with no ill effects on their own health."

With Chitofoam, Doppelgänger aims to show that the little bugs could be used not just to degrade existing polystyrene waste but also to create a bioplastic alternative to it.

Complex foam constructions by Doppelgänger next to piece of coralDoppelgänger has modelled the packaging on the shape of coral

Once the mealworms have reached the end of their life, the designers collect them from the biodigester and extract the chitin from their exoskeletons by treating them with an alkaline solution, in a process known as deacetylation.

This powdered chitin derivative called chitosan is then dissolved in citric acid, mixed with a waste-derived biopolymer that the studio is keeping under wraps until its patent application has been granted.

Vigorous shaking ultimately gives the mixture its characteristic foamy consistency, which Doppelgänger says is more flexible and elastic than traditional expanded polystyrene while having natural antifungal and antimicrobial properties.

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Chitofoam can be cast or injection-moulded into shape, much like Styrofoam, but Böhning and Lempres are currently still testing whether the material has the same thermal insulation properties that would allow it to be used to store hot foods and drinks.

As Chitofoam is a thermoplastic it can be melted down and reformed into new products, or placed in soil where it decomposes in two to three weeks.

Doppelgänger says the material has a "high biocompatibility and very low toxicity". But some experts have raised concerns about whether the acidity of bioplastics could throw off the ph balance of soil and water.

Chitofoam packaging materialsThe material has shock-absorbent properties thanks to its foamy texture

Chitofoam is one of six projects shortlisted for this year's Lexus Design Award, with the winner set to be decided later this spring.

Until then, Doppelgänger is working to further progress the project with the help of a £19,000 budget and guidance from a group of four mentors including designer Sabine Marcelis and Yosuke Hayano of Beijing architecture firm MAD.

The studio's plan is to develop a food product from the protein-rich, plastic-eating mealworms, which would then be packaged in the mealworm bioplastic.

Foam peanuts and padding made from mealworm exoskelletonsThe material could be used as a substitute to traditional polystyrene packaging

"Mealworm farming has been highlighted in recent years as an environmentally sustainable solution to malnutrition, particularly in developing rural economies," the studio said.

"Growing edible mealworms is affordable, low-resource and space-efficient. The resultant food source is twice as protein-efficient as beef with zero methane emissions."

In this way, the designers say the mealworms could eventually help to tackle two sustainable development goals at the same time, providing food security and fighting pollution.

Chitofilm by Doppelgänger made from mealworm exokelletonsChitin can also be turned into a bioplastic film

Early studies have shown that mealworms that have digested polystyrene can still be used to feed other animals, but more research is necessary on whether they could safely be eaten by humans and whether they could be used to break down plastics at a mass scale.

As the mealworms digest the polystyrene, around half of the fossil carbon that was stored in the plastic is also emitted into the atmosphere as CO2, which could contribute to global warming.

The chitin found in their exoskeletons has been much more widely studied and already turned into a range of different materials including a leather alternative and a bioplastic film.

The post Doppelgänger creates polystyrene substitute from plastic-eating mealworms appeared first on Dezeen.

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