Bergen Carbon Solutions is a company transforming CO2 into a valuable resource by using renewable energy to convert excess greenhouse gas into solid, versatile industrial raw materials. The carbon capture and utilization (CCU) technology developed by Bergen has the potential to deliver a stable supply of carbon nanotubes and graphite, and also reduce manufacturers' exposure to geopolitical risks associated with raw material sourcing.
NitroVolt is a startup with a mission to revolutionize ammonia production by creating a sustainable alternative to conventional fossil fuel-based methods. Currently, ammonia synthesis contributes to about 1.5% of global CO2 emissions, which approximately 80% of ammonia used in fertilizers. The remaining serves various industries, including refrigeration, wastewater purification, plastic manufacturing, explosives, textiles, pesticides, and many other chemicals.
Myno is a startup focusing on carbon removal and the production of biochar through pyrolysis. By converting timber and agricultural waste into biochar, a carbon-negative material, Myno plays a key role in addressing climate change. Biochar has a wide range of applications, including soil amendment, fertilizer, and even animal feed to reduce methane emissions. This process captures carbon and generates renewable energy, making biochar production a clean and sustainable process.
Blue Planet Systems has developed a patented Geomimetic® Mineralization Technology that captures carbon dioxide (CO₂) from any emission source and transforms it into carbon-negative aggregate for the construction industry. This innovative approach uses waste CO₂ and combines it with calcium sourced from industrial byproducts and waste materials to create synthetic limestone aggregate, permanently locking CO₂ within the material. Blue Planet provides a sustainable and circular solution to concrete production by mimicking the Earth's natural limestone formation process.
Novoloop is a startup working on solutions to break down and upcycle plastics. Through its Lifecycling™ platform, Novoloop transforms hard-to-recycle plastics, such as plastic bags and packaging, into high-performance materials with a reduced carbon footprint. This novel technology chemically converts post-consumer polyethylene into essential building blocks, which are then used to produce thermoplastic polyurethane (TPU), reducing carbon emissions by up to 41% compared to conventional methods.
Oxccu has developed groundbreaking catalytic processes that redefine the production of sustainable fuels, chemicals, and biodegradable plastics. The company’s novel iron-based catalyst enables the direct conversion of CO2 and green hydrogen (sourced from water) into high-value products such as jet-fuel-range hydrocarbons, green naphtha for bioplastics like polypropylene (PP) and polyethylene (PE), and alpha-olefins, which are the foundational ingredients for surfactants, lubricants, and plasticizers.
Kubik is an African startup transforming hard-to-recycle plastics into sustainable construction materials. Addressing the pressing demand for housing and infrastructure across Africa, Kubik builds eco-friendly, modular, and cost-effective residential, commercial, and public facilities.
Bioalbumen® provides the same full functionality as real egg protein, allowing for the creation of fluffy, foamy, firm, sticky, gooey, and crispy foods entirely animal-free. Onego Bio produces animal-free egg protein through precision fermentation, which enables a sustainable food ingredient that’s functional, nutritious, and delicious without compromise. Bioalbumen® is the ideal industrial egg substitute, enhancing texture, taste, and functionality across diverse products such as from baked goods and confectionery to snacks, beverages, and sauces.
Brineworks is a startup developing a seawater electrolysis technology that extracts hydrogen (H2) and carbon dioxide (CO2) directly from the ocean to create sustainable e-fuel feedstock. This system produces green CO2 and hydrogen without relying on precious metals, offering a cost-effective and scalable solution. Unlike conventional electrodialysis methods, Brineworks’ electrolyzer produces the required acid and base more efficiently, while simultaneously generating large volumes of green hydrogen, a critical component for producing low-carbon fuels.
NOOSA™ has developed a technology that manufactures textile fiber from corn, sugarcane, and wheat. The fibers are made from polylactic acid (PLA) derived from GMO-free crops and do not compete with the food industry. The protein from these feedstocks is redirected to food production, while NOOSA™ focuses on carbohydrates such as sugar and starch.