Partnering to support breakthrough research on sustainable materials
SIG announced that it will fund breakthrough research into more sustainable materials at EPFL, the Swiss Federal Institute of Technology in Lausanne, Switzerland, as part of a joint initiative with Nestlé, Logitech and other industry partners to tackle environmental challenges associated with plastic waste.
SIG announced that it will fund breakthrough research into more sustainable materials at EPFL, the Swiss Federal Institute of Technology in Lausanne, Switzerland, as part of a joint initiative with Nestlé, Logitech and other industry partners to tackle environmental challenges associated with plastic waste.
Driving research into sustainable materials
Together, the corporate partners have committed to provide 5 million Swiss francs over 10 years. The funding will support a new Chair for Sustainable Materials research within EPFL’s Institute of Materials.
The Chair, to be appointed as a tenure-track Assistant Professor, will be responsible for developing and implementing a new research programme on sustainable materials at EPFL, one of Europe’s most vibrant and cosmopolitan science and technology institutions.
Research areas of interest will address critical questions such as the overall environmental impact of materials, the exploration of bio-based, bio-degradable and recyclable materials, including high-performance paper-based barrier materials, that could help to address environmental concerns about plastic packaging.
Supporting customers with sustainable solutions
Beverage cartons are fully recyclable and have a much lower environmental footprint than many alternatives for long-life food and beverages such as milk, juice or soups. They are made mainly from renewable paperboard, but small amounts of polymers and aluminium foil are usually needed as barrier layers to contain and protect liquid food products, and for caps and closures.
SIG already offers an innovative aluminium-free aseptic packaging for dairy products, known as combibloc EcoPlus, and its SIGNATURE PACK solution uses a mass balance approach to link the polymers used in the carton to 100% renewable, forest-based feedstock. The company is now working to create an aseptic pack made out of 100% renewable materials – without mass balancing or aluminium – that can be used for a range of products, including juices that are more sensitive to light and oxygen.
Supporting research into more sustainable, high-performance barrier materials will help SIG drive progress towards this goal as it works in partnership with customers to bring food products to consumers around the world in a safe, sustainable and affordable way.