The consortium of PulPac, Nordic Barrier Coating and OrganoClick has been granted financial support for continued development of 100% biobased, plastic- and PFAS-free barriers and materials for demanding food packaging applications. The development project is funded from the Swedish strategic innovation program BioInnovation financed by the Swedish innovation agency Vinnova.
Following breakthroughs made last 2021, the consortium will continue the project that focuses on integration of commercially scalable environmentally friendly water and/or grease resistant barriers specialized in Dry Molded Fiber.
Viktor Börjesson, Chief Partnership Officer at PulPac comments, “We are very proud about the breakthroughs achieved within BioInnovation with our partners. The combined performance in OrganoClick’s chemistry and scalability coupled with NBC’s dynamic ability to form specialized materials makes this a very important project. Dry Molded Fiber is disrupting fiber forming, making it possible to manufacture paper packaging without wasting valuable water resources or energy and significantly reducing CO2, at unit economics that are very competitive. These solutions are plastic-free, biodegradable and recyclable – very important qualities to our customers.”
Dan Blomstrand, VP Biocomposites at OrganoClick AB, comments “We are very eager to continue building on the breakthroughs reached in step one of this BioInnovation program. The potential markets being enabled in packaging and single-use products with our 100% biobased and home compostable coating and binder products for Dry Molded Fiber by PulPac are enormous.”
Urban Winberg, CEO at Nordic Barrier Coating AB, comments “The delicate art of designing materials and combining functions from OrganoClick’s chemistry adapted for Dry Molded Fiber has yielded very exciting opportunities as shown in last year’s breakthroughs. We can now invest in infrastructure and industrial capacity to commercially pilot the solutions discovered, and to cater to Dry Molded Fiber's global uptake.”
PulPac provides the packaging industry with a groundbreaking manufacturing technology for low-cost, high-performance fiber-based packaging and single-use products. By pioneering the technology of cellulose molding PulPac enables their customers to replace single-use plastics with a sustainable and cost competitive alternative globally.
For additional information about PulPac, please visit www.pulpac.com or follow us on social media.
About Nordic Barrier Coating
Nordic Barrier Coating AB manufactures and offers innovative barrier and packaging solutions for maximum functionality. Specialised on extrusion on paper, plastic and non-woven. With many years of experience from the paper, extrusion and conversion industries, we possess cutting-edge expertise in the field. www.nbcab.se
OrganoClick AB (publ) is a public Swedish cleantech company listed on Nasdaq First North Growth Market. The company develops, produces and markets functional materials based on environmentally friendly fiber chemistry. Examples of products that are marketed by OrganoClick are the durable water repellent technology for textiles OrganoTex®, the biocomposite material OrganoComp®, surface treatment and maintenance products for villa and property owners under the brand BIOkleen®, biobased binder under the trade name OC-BioBinder™ and the flame and rotresistant timber OrganoWood® (through the joint-venture OrganoWood AB). OrganoClick was founded in 2006 as a commercial spin-off company based on research performed at Stockholm University and the Swedish University of Agricultural Sciences within environmentally friendly fiber chemistry. www.organoclick.com
About Dry Molded Fiber
Dry Molded Fiber, invented and patented by PulPac, is a manufacturing technology designed for the circular economy. It leverages globally available, affordable, and renewable cellulose fibers to produce high performance fiber-based packaging and single-use products with highly competitive unit economics. Dry Molded Fiber also saves significant amounts of valuable water resources and energy, resulting in up to 80% lower CO2 footprint compared to alternatives. The process is up to ten times as efficient as conventional fiber molding invented over 100 years ago.