NEXE Innovations awarded $1,000,000 from Canadian government
by CM Staff
This follows a $150,000 grant that NEXE received in 2019 during Phase 1 of the program to support prototype development.
VANCOUVER — NEXE Innovations Inc., a plant-based materials science and advanced manufacturing company, announces that it has been awarded a $1,000,000 grant from the Government of Canada to support the commercialization of its NEXE Nespresso-Compatible Pods. The award is part of Phase 2 of the GOC’s Plastics Challenge: Improved Compostability of Bioplastics. This follows a $150,000 grant that NEXE received in 2019 during Phase 1 of the program to support prototype development. This award will support the high-speed manufacturing of the Company’s NEXE Nespresso-Compatible pods following the announcement of the composting results last week.
NEXE Chief Scientific Officer Dr. Zachary Hudson commented “We are grateful to the Government of Canada for this award, which reflects their commitment to nurturing innovative, Canadian-made solutions to some of the world’s most challenging problems. At NEXE, we have developed and validated sustainable plant-based materials that are better for the environment without compromising the needs of the consumer. We look forward to bringing them to market with the support of Innovative Solutions Canada.”
In 2018, the GOC launched the Bioplastics Challenge to support the development of new technologies to improve the compatibility of bioplastics with home and municipal composting systems. This initiative reflects Canada’s commitment to the Ocean Plastics Charter, signed by 26 nations with the aim of developing a more sustainable approach to the management of plastics. The challenge was made under the GOC’s Innovative Solutions Canada program, with over $100 million dedicated to supporting the scale-up and growth of Canadian businesses.
NEXE was awarded Phase 2 funding to develop plant-based and fully compostable Nespresso-Compatible coffee pods from bioplastic and wood fibre. This project was recognized for its potential to improve the compostability of bioplastics and to substantially reduce plastic waste.
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