Plastic bottles from plants: Gert-Jan Gruter named European Inventor Award 2017 finalist

• Dutch scientist is nominated for European Patent Office (EPO) prize for his invention in the field of bioplastics
• PEF - a high-quality green plastic produced from plant-based industrial sugars
• Environmentally-friendly alternative to bottles made of petroleum-based PET
• EPO President Battistelli: "Gruter has developed a new method for developing bioplastics on a commercial scale."

Munich, 26 April 2017 - Every day, hundreds of millions of plastic bottles are sold around the world, imposing a heavy burden on the environment. Aside from post-consumer plastic waste issues, these bottles rely on fossil-fuel-derived chemicals, require a significant amount of energy for production and leave behind a considerable CO₂ footprint. Dutch chemist Gert-Jan Gruter and his team at Amsterdam-based chemicals company Avantium have developed an environmentally-friendly alternative: a plant-based bioplastic called PEF that requires no petrochemicals, is completely recyclable and cuts associated CO₂  emissions by up to 70%.

For this achievement, Gert-Jan Gruter has been nominated  for the European Inventor Award 2017 as one of three finalists in the category "Small and medium-sized enterprises". The winners of the 12th edition of the European Patent Office (EPO)'s annual innovation prize will be announced at a ceremony in Venice on 15 June.

"Gert-Jan Gruter has developed a new method for developing bioplastics on a commercial scale," said EPO President Benoît Battistelli, announcing the European Inventor Award 2017 finalists. "His invention is a major step forward in reducing the environmental impact from plastics, and it demonstrates that we can overcome some of our biggest challenges through innovation."

New plastics needed

Roughly 300 million tonnes of plastic are produced each year and employed in such a diverse range of products that it is difficult to imagine a world without these versatile polymers. Gert-Jan Gruter spent many years in conventional petroleum-based plastics research, and worked with some of the biggest companies in the chemical industry. Having witnessed the toll fossil-fuel extraction and refinement was taking on the planet, he took a decision to try to come up with new, alternative technologies, which could be used on a large scale.

"To make the transition from fossil feedstock to sustainable plastics, we have to rely on biomass," says Gruter. "But for this we need new materials. That's the only way to bring about this change."

Gruter has taken aim at the fourth most commonly used plastic polymer, polyethylene terephthalate, best known for the ubiquitous plastic bottles which sport its acronym: PET. The possibility to create an adequate PET substitute had been theorised since the early part of the 21st century. However, an efficient method to create large amounts of the necessary intermediary chemical furandicarboxylic acid (FDCA) remained elusive. "Over the past 100 years, more than 1 000 publications and patents have been published on FDCA and its precursors," says Gruter. "Neither research nor any of these patents had resulted in a viable method of producing this material in large quantities, and at competitive prices."

Gruter and his team took a new approach and developed a chemical, catalytic process that efficiently creates FDCA from simple plant sugars (starch). The process, which the Dutch chemicals company dubs YXY (pronounced "icksy") has paved the way for a new bio-based polymer: polyethylene furanoate (PEF).

A better alternative

Petroleum-based PET's flexibility, light weight and robustness have helped make it the leading polymer for beverage bottling, but the plant-based PEF offers all of these advantages and more. PEF, for instance, has greater material rigidity than its petroleum-derived counterpart. The result: bottles use less plastic, cutting down on manufacturing costs, a boon for companies and consumers.

PEF is also sturdier and has better barrier properties. Beverage containers made of PEF keep their contents fresher for longer by blocking the passage of oxygen into the bottle ten times more effectively than PET. For carbonated drinks, PEF holds in five times more CO₂. PEF's gas barrier properties are matched by important environmental and efficiency benefits. Manufacturing bottles made from this polymer requires about 70% less energy and releases about one-third of the carbon emissions of PET.

Big partners

Founded in 2000 by a consortium of companies led by Royal Dutch Shell, Avantium honed a strong R&D focus through the chemical research services it offers to partner companies. This experience has helped the firm develop innovative technologies, such PEF and its YXY process, and license this technology for large-scale production. In March 2017, Avantium went public, raising EUR 103 million in new capital and valuing the company at around EUR 300 million.  

The company, which today has some 150 employees, is well on its way to making PEF a viable and widely-accepted alternative to PET.  It has operated a pilot plant for PEF since 2011. To bring the technology to market, Avantium has partnered with several leading industry players in the food and bottle manufacturing sectors, and also formed the joint venture Synvina in 2016 with BASF for the production and marketing of PEF. TheJV plans to build an industrial-scale plant in Antwerp, Belgium, with a production capacity of up to 50 000 tonnes per year. The goal is to bring PEF bottles to market by 2021 and secure a foothold in the plastic bottle-making industry, worth an estimated EUR 32 to 37 billion annually.

A master of bioplastics

After earning a PhD in Organometallic Chemistry from the Vrije Universiteit in Amsterdam, Gruter began his career at DSM Research BV as a group leader in charge of researching polyolefins catalysts. He joined Avantium in 2000 as Vice President Technology and became the company's Chief Technology Officer in 2004, a position he holds today. In 2016 he was appointed part-time Professor “Industrial Sustainable Chemistry” at the University of Amsterdam.

Gruter has authored or co-authored 30 scientific papers and is listed as the inventor or co-inventor on more than 100 patents and patent applications, both in Europe and around the world (17 of the European patents relate to the YXY technology). Active in industry and the public sector, Gruter sits on several boards, advisory councils, policy groups and programme committees. Thanks to Gruter's innovations in the field of bioplastics and the YXY process, Avantium has been recognised with a number of honours and awards, including European CTO of the year 2014, the Innovation in Bioplastics Award (2013), the European Cleantech Company of the Decade (2005-2014), and most recently, induction into Global Clean Tech 100's Hall of Fame (2017).

Additional resources

• Video and photo material
• Read more about the inventor
• View the patents: EP2001859, EP2004620, EP2103606, EP2183236, EP2197868 and EP2197865

Opening up new product design

PEF allows manufacturers to go "lightweight" with their products, and material and cost savings may well lead to even more innovative designs for PEF products. Companies ranging from Procter & Gamble to Evian and Canon have been granted PEF patents for applications ranging from hygiene articles and packaging materials to specialised water bottles and film. 

• About the European Inventor Award
• About the European Patent Office (EPO)

Contacts at the European Patent Office in Munich, Germany:

Jana Mittermaier
Director External Communication

Rainer Osterwalder
Press Spokesperson

Tel. +49 (0)89 2399 1820
Mobile: +49 (0)163 8399527
[email protected]
[email protected]