SABIC’s Trucircle PE used for greenhouse roofing
As plastic pollution and fossil fuel dependence intensify, one material is gaining momentum as a scalable, low-carbon alternative: green polyethylene. Made from renewable biomass like sugarcane, wheat, or beet, green polyethylene (Green PE) is a bio-based version of the world’s most used plastic—chemically identical to conventional polyethylene, but with dramatically lower greenhouse gas emissions. It offers a rare opportunity: a drop-in solution that works in existing systems without the environmental cost of oil-based plastics.
With governments and companies searching for climate solutions, the case for investing in green plastic infrastructure and research has never been stronger.
What Is Green Polyethylene?
Green PE is produced using ethanol derived from renewable sources—primarily sugarcane in Brazil, but also wheat grain and beet in Europe. It behaves the same as traditional polyethylene: it’s durable, moldable, and recyclable. The difference lies in its feedstock and carbon footprint. While not biodegradable, Green PE is a key player in the circular economy: it sequesters carbon during crop growth and reduces life-cycle emissions when used and recycled responsibly.
The Major Companies Driving the Transition
Braskem: The Sugarcane Giant
Braskem: plastics from sugar
Based in Brazil, Braskem pioneered large-scale Green PE production in 2010 with ethanol sourced from responsibly grown sugarcane. Their “I’m Green” polyethylene is now used globally in packaging, cosmetics, and consumer goods, and the company claims its production process results in a carbon-negative footprint.
Neste and IKEA: From Waste Oils to Renewable Plastics
Neste refinery in Finland switching to SAF
Finnish renewables company Neste teamed up with IKEA to develop bio-based plastics made from waste oils, fats, and forest residues. While not exclusively Green PE, their work demonstrates how industrial waste can become raw material for durable, climate-conscious plastic alternatives. (Neste is also developing a sustainable aviation fuel).
Avantium: PEF Bottles from Plant Sugars
Avantium N.V., a leading company in renewable and circular polymers, today celebrated the Official Opening Ceremony of its FDCA Flagship Plant in Delfzijl, the Netherlands.
Amsterdam-based Avantium has developed PEF, a 100% plant-based polymer derived from sugars found in wheat and corn. With superior barrier properties and a faster degradation profile than PET, Avantium’s plastic bottles are poised to disrupt the food and beverage packaging sector.
SABIC: A Fossil Giant Turning Circular
Saudi Arabia’s SABIC, one of the world’s largest petrochemical firms, is now manufacturing certified renewable polyolefins—including Green PE—using second-generation bio-feedstocks like used cooking oil. It’s a strong signal that even fossil giants are moving toward a circular model.
Dow: Scaling Bio-Based Plastics
Dow plastics: providing the disease and the cure
Dow, a legacy name in fossil-based plastics, and a chemical company known for creating the disease and now the cure, is investing in bio-based polyethylene to meet growing demand for sustainable materials. The American company has collaborated with partners to test Green PE in large-scale applications, especially in flexible packaging and industrial materials.
Why This Matters to the Planet Now
The plastics industry accounts for 3–4% of global emissions, and demand is expected to triple by 2060. Green PE could reduce emissions by up to 80% compared to fossil-based PE when produced from sustainable sources. As bans on single-use plastics expand and Extended Producer Responsibility (EPR) laws grow, companies need viable, low-emission alternatives.
Green polyethylene isn’t perfect. It’s not biodegradable, and large-scale production raises questions around land use and food competition. But as fossil-based plastic becomes a liability—for climate, health, and brand reputation—Green PE offers a ready-now material with measurable benefits.
What’s needed:
* Investment in second-generation feedstocks (like algae and agricultural waste),
* Better recycling infrastructure, especially in the Global South,
* Policy incentives for low-carbon plastics over virgin fossil resins.
The difference between green PE and fully compostable polymers
Green PE is chemically identical to fossil-based polyethylene—a long-chain polymer with strong carbon-carbon bonds—made from plant-based ethanol (e.g., sugarcane). It’s designed to be recyclable, not biodegradable, so it behaves just like conventional plastic in use and waste streams.
This bra in a co-production by Balena is made from a plastic that decomposes, but is it edible?
Companies like Balena and Tipa use biodegradable or compostable polymers, often designed with weaker ester or amide bonds that microorganisms can break down. Balena is all over the news collaborating with brands such as Stella McCartney, VivoBarefoot, Pangaia, and Ecco to develop compostable, fashion-forward materials.
TIPA and Wyld are teaming up to package cannabis edibles in home-compostable laminate and take steps to keep hard-to-recyclable, single-use flexible plastics out of the environment.
These materials may include PLA (polylactic acid), PHA (polyhydroxyalkanoates), or proprietary bio-elastomers, which are engineered to decompose under composting conditions (industrial or home).
Author: Karin Kloosterman
Karin Kloosterman is an award-winning journalist and publisher that founded Green Prophet to unite a prosperous Middle East. She shows through her work that positive, inspiring dialogue creates action that impacts people, business and planet. She has published in thought-leading newspapers and magazines globally, owns an IoT tech chip patent, and is part of teams that build world-changing products to make agriculture and our planet more sustainable. Reach out directly to [email protected]
