- The winner announced during the dinner is : Bio-Lutions GmbH. Kudos! N° 2 is Paptic and n°3 Phytowelt. Congrats!
“Bio-based Material of the year” award
Here are the candidates:
BIO-LUTIONS (DE): BIO-LUTIONS fibres (up-cycled agricultural residuals)
With its innovative mechanical process, bio-lutions produces high performance ecologically sustainable packaging and disposable tableware made directly from agricultural residuals. Converted into self-binding natural fibres, this innovation lets the contaminating and energy-intense process of cellulose extraction to be a thing of the past. The final products can either decompose under normal conditions, be used for biogas production and can be recycled or burned with a nearly CO2 neutral carbon footprint. Local raw material, local production and local market – decentralisation is the key.
Cooper Tire (US): Guayule natural rubber for tire application (guayule polymer – polyisoprene)
Guayule is a shrub that grows in regions such as the Southwestern U.S. It holds promise as a source of rubber for the tire industry – a possible alternative to Hevea rubber, which could be in short supply in the future and is subject to dramatic price fluctuations. This year, Cooper and its consortium partners completed a five-year bio-material study to assess how guayule rubber could be used in modern passenger car tires. Key wins include among others the creation of the first ever concept tire where all of the natural and synthetic rubber has been replaced with guayule.
Hexpol (BE/SE): Dryflex® Green (bio-based thermoplastic elastomer)
Dryflex® Green is a family of bio-based thermoplastic elastomers (TPE). They are opening up previously unreachable solutions to the bio-based thermoplastic market by covering a wider range of hardnesses, including softer grades, while incorporating high levels of renewable content to over 90%. Hexpol has also developed compounds using organic fillers from plants, crops or trees; these give additional organic appearance and haptics. Dryflex® Green TPEs are highly customisable, with grades tailored to meet specific application requirements to give manufacturers of household goods, sports equipment, toys, infant care and packaging new opportunities for sustainability.
Paptic (FI): PAPTIC® – the next generation of paper (novel renewable, recyclable and reusable material)
Paptic is replacing oil based plastics with bio-based, recyclable and reusable PAPTIC® material, which uses a novel wood fibre for a bioplastic composite paper combining the benefits of paper, plastics and textiles. First application of PAPTIC® is carrier bags, addressing the EU directive target for 55% reduction of plastic bag use by 2019. PAPTIC® bags have been launched to market in June 2016. The patented PAPTIC® technology is based on foam forming technology which is using 30% less energy and enabling up to 50% light weighting of products, when compared to traditional papermaking.
Patagonia (US): Yulex R3 wetsuit (85% natural rubber/15% synthetic rubber by polymer content, recycled polyester content in linings)
Wetsuits have always relied on neoprene (polychloroprene), which is non-renewable with energy-intensive manufacturing process. For eight years, Patagonia has been pioneering natural rubbers and sharing R&D with the surf/wetsuit industry to encourage a shift towards cleaner materials. In 2016, Patagonia launched the world’s first neoprene-free wetsuit, reducing their CO2 emitted in the polymer manufacturing by up to ~80% compared to conventional neoprene. The new plant-based material pioneered by Yulex Corp is sourced from Hevea rubber that is independently certified to the FSC® standard by the Rainforest Alliance, uses ambient rainfall and recycled water in manufacturing.
Phytowelt GreenTechnologies (DE): Chiral raspberry fragrance ((R)-alpha-Ionone)
The (R)-alpha-Ionone is the main component of raspberry fragrance. Usually it is synthesized chemically as an racemate which contains the enantiomer (R)-alpha-Ionone as well as the distomer (S)-alpha-Ionone. The (S)-form has a woody and musty flavour which gives the chemical racemate a different and impure fragrance. However, it is complex and uneconomic to separate enantiomers and distomers. With its patented process, Phytowelt is not producing any of the distomers but only the enantiomer.
Therefore, the raspberry fragrance is chiral pure, smells intensive and is, because of the biotechnological production, a natural flavour component. This raspberry fragrance is the first natural in the market which can be produced in high quantity as well as quality resulting in a high competitive advantage.
RELATED ARTICLES
- What are Bioplastics and Biopolymers?
- Bioplastics Brands
- Bioplastics Awards
- What is the Difference Between Biodegradable, Compostable and OXO Degradable?
- The History and Most Important Innovations of Bioplastics
- What are Drop-In Bioplastics?
- History of Cellophane
- The History of Elephant Grass Bioplastics
- Bioplastics Companies
- Top Bioplastics Producers
- Polylactic acid or polylactide (PLA)
- What is Bio-BDO?
- McDonalds and the Polystyrene Connections
- The Future of Polystyrene
- Bioplastic Feedstock 1st, 2nd and 3rd Generations