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Coca-Cola, Suntory Cross the 100% Plant-Based Bottle Finish Line

After more than a decade of rigorous R&D work and significant investments with their respective partners, Coca-Cola and Suntory each unveil first-of-their-kind beverage bottle prototypes made from 100% bio-based PET, ready for commercial scale-up.

Coca-Cola has produced 900 prototype bottles made from 100% plant-based content.
Coca-Cola has produced 900 prototype bottles made from 100% plant-based content.

Since 2009, when The Coca-Cola Company announced the launch of the first PET bottle made partially from plants, the race has been on among beverage brands to crack the code on developing a commercially viable, 100% bio-based PET bottle with the same functionality as a petroleum-based bottle. Earlier attempts by other drinks companies to use bioplastics— specifically corn-based polylactic acid—for beverage bottles had proven disappointing, as the material lacked stability and contaminated PET recycling streams. So, when Coca-Cola’s PlantBottle, made partially from a “drop-in” bioplastic having identical properties to virgin PET, including recyclability, came on the scene, it was a game-changer.

The first PlantBottle was 30% bio-based, using Braskem’s sugarcane ethanol; the other 70% used petroleum-based chemicals. At the time of the launch, Coca-Cola made it known that its vision was to continue innovating to achieve a bottle made with 100% plant-waste material while remaining completely recyclable.

The first PlantBottle was 30% bio-based, using Braskem’s sugarcane ethanol; the other 70% used petroleum-based chemicals.The first PlantBottle was 30% bio-based, using Braskem’s sugarcane ethanol; the other 70% used petroleum-based chemicals.In 2011, PepsiCo announced it had developed a prototype “green PET bottle,” which it said was the world’s first PET plastic bottle made entirely from bio-based raw materials, including switchgrass, pine bark, and corn husks. Its goal was to commercialize the packaging by 2012, but news of the initiative quickly faded.

In 2018, PepsiCo joined The NaturALL Bottle Alliance, a research consortium formed one year earlier by Danone, Nestlé Waters, and bio-based materials development company Origin Materials to accelerate the development a bio-PET bottle. Since then, there has been no news from the alliance, although in early 2022, Origin announced plans to invest $750 million in a biomass manufacturing facility in Louisiana.


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Read this story on Frito-Lay's new bio-based bag for its Off The Beaten Path snack brand.


In 2012, Japan-based Suntory Holdings Limited, whose more well-known brands include Orangina, Schweppes, Ribena, and Lucozade, became the new challenger when it entered into a strategic partnership with bio-sourced chemicals company Anellotech to develop and commercialize a cost-competitive, 100% bio-based plastic beverage bottle. In 2013, it introduced its own partially plant-based PET bottle, 30% of which was derived from molasses.

Now, more than a decade after the first PlantBottle hit retail shelves, and after years of research, pilots, prototypes, and investments, both Coca-Cola and Suntory have unveiled 100% plant-based PET bottle prototypes, each through different partnerships and technologies, ready for commercial scale-up.

Coca-Cola innovates and refines

PET consists of two molecules: mono-ethylene glycol (MEG) and terephthalic acid (PTA), which respectively make up 30% and 70% of the polymer by weight. PTA is produced by the oxidization of an aromatic chemical called paraxylene. For both Coca-Cola and Suntory, the route to finding a bio-based replacement for MEG was a short one. The road to developing a cost-competitive, commercially viable plant-based replacement for PTA, which required the development of bio-based paraxylene (bPX), was much longer.

Coca-Cola’s journey also involved several detours before the company found the best path to a  bPET (biomass PET) bottle. In 2015, after its PlantBottle had been on the market for six years, Coca-Cola unveiled its first 100% bPET bottle prototype, produced at laboratory scale, at the World Expo in Milan. The bottle was made from two renewable feedstocks: sugarcane-based MEG from Braskem, and bPX made using sugar from corn from Coca-Cola partner Virent. The prototype proved a fully bio-based PET bottle was possible, but it was not ready for commercialization.

In 2015, after its PlantBottle had been on the market for six years, Coca-Cola unveiled its first 100% bPET bottle prototype, produced at laboratory scale, at the World Expo in Milan.In 2015, after its PlantBottle had been on the market for six years, Coca-Cola unveiled its first 100% bPET bottle prototype, produced at laboratory scale, at the World Expo in Milan.With its recently unveiled bPET bottle, Coca-Cola has moved from sugarcane, which is also used to produce bioethanol, to wood-based biochemicals to produce bio-based MEG (bMEG). Explains Dana Breed, Global R&D Director, Packaging and Sustainability for The Coca-Cola Company, “The inherent challenge with going through bioethanol is that you are competing with fuel. We needed a next-generation MEG solution that addressed this challenge, but also one that could use second-generation feedstock like forestry waste or agricultural byproducts. Our goal for plant-based PET is to use surplus agricultural products to minimize the carbon footprint.”

The technology behind the production of the bMEG was co-developed by Coca-Cola and Changchun Meihe Science & Technology and is based on feedstock that cannot be used as a food source—specifically hardwood taken from sawmill side streams and forest thinnings. According to Coca-Cola, “The technology takes a sugar source and removes the step of creating ethanol as part of the conversion process to produce plant-based MEG. This means the process is simpler than incumbent processes and provides flexibility in feedstock choice,” hence the hardwood feedstock.

The technology was validated at demonstration scale in 2017. Currently, Finland-based paper producer UPM is building the world’s first biorefinery to produce wood-based biochemicals using this jointly developed technology. The biorefinery will utilize beechwood from regional forests, as well as residues from the sawmill industry, to produce a range of biochemicals, including bMEG. The facility is expected to be operational  by year-end 2022, with a total annual capacity of 220,000 metric tons.

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INTRODUCING! The Latest Trends for Life Sciences at PACK EXPO Southeast