Bioplasmar
That’s what makes
Bioplasmar different
History
From the idea to the product
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2011Chanoch Samet had the idea of replacing plastic with a biodegradable product. For this, he founded Bioplasmar.
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2012he tested the ideas and developed the specific approach.
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2013Chanoch Samet set out to find people who would financially support his project. He also worked on making the concept marketable.
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2014the first product design took place. A short time later, the first product line could already be manufactured by machine.
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2018Bioplasmar and Veolia decided to enter into a corporate cooperation. As a result, the first French production plant was inaugurated near Poitier.
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2020-2023Bioplasmar became a limited liability company and acquired property rights in organic injection molding. Since then, Bioplasmar has continued to expand the company.
What makes our product special
Bioplasmar products
are ecologically valuable
Plastic Alternative
Soil enrichment
No regional restrictions
Durability
Our Vision
Our goal is to upscale local organic waste into valuable biodegradable products using existing industrial infrastructure.
Plastic alternatives
Plastic products have been associated with significant environmental challenges.
Our products offer a sustainable solution by serving as a low footprint substitute for plastic goods, naturally decompose and enrich the soil after use, minimizing waste and contributing to a circular economy.
By choosing Bioplasmar products, you can make a positive contribution to reducing greenhouse emissions, plastic pollution and promoting a more environmentally conscious lifestyle.
Insect protection
Circular economy
100% plant-based
Reducing CO2 emission
biomass carbon cycle
geological reserves
The Polypropylen container generates 571g CO2-e, 99% of which are of fossil origin.
The Bioplasmar container saves 5 times fossil derived CO2-e relative to the Polypropylen container.
The Polypropylen container generates 571g CO2-e, 99% of which are of fossil origin.
The Bioplasmar container saves 5 times fossil derived CO2-e relative to the Polypropylen container.
The Polypropylen container generates 571g CO2-e, 99% of which are of fossil origin.
The Bioplasmar container saves 5 times fossil derived CO2-e relative to the Polypropylen container.