System Development/Field Test/ Commercialization

Enerkem specializes in converting waste materials into biofuels and renewable chemicals using patented gasification technology. This process utilizes waste and biomass residues from municipal, commercial, and industrial sources. The waste is initially sorted to remove recyclable and inert components, then shredded and dried for further processing. In the gasification phase, the prepared waste is fed into a proprietary bubbling fluidized bed gasification vessel, where it reacts with steam and oxygen to break down molecules and produce a mixture called syngas.

A biotechnology company that produces ingredients for active compounds for skin and hair care according to a biotechnological process derived from plant stem cells. Plant stem cells' regenerative potential for repairing damaged tissue and ability to regenerate from a single stem cell are the basis of Vytrus Biotech's product portfolio. Plan stem cells can be obtained from accurately selected plant tissues (explants) through a designed process of cellular reprogramming (de-differentiation).

The company focused on developing and commercializing versatile bio-base, micro-, and nanocellulose materials. FineCell’s patented technology offers sustainable material solutions with unique performance benefits, such as replacing fossil fuels and harmful chemicals in personal care products and consumer goods. FineCell’s cellulose materials are produced through a green and resource-efficient process. The technology is based on a chemical reaction under mild conditions, which enables substantially reduced energy and water consumption and significantly increases production yield.

Technology developed by Evrnu®, an advanced material innovation company, reshaping resource utilization and reducing the negative environmental impacts of the textile industry. Nucycl® is a fiber regenerated from cotton textile waste that provides a real alternative to high-impact raw materials like cotton and polyester. The technology converts textile waste materials into ‘new’ engineered fibers, which can be recycled repeatedly.

Solidia Technologies has patented cement technology that utilizes the same raw materials and equipment as traditional Portland cement but with reduced limestone and lower production temperatures. This innovation slashes CO2 emissions from kilns by 30% compared to conventional Portland cement production and up to 50% of the overall carbon footprint of cement and concrete. Solidia Cement® also contains low-limestone cement that achieves strength through CO2 reaction rather than water.

Anellotech has developed innovative technologies to recycle mixed plastics, fabrics, and sustainably produce bio-derived chemicals and fuels. Plast-TCat™ focuses on the chemical recycling of plastics, converting large volumes of mixed waste plastics directly into valuable chemicals. This technology offers a novel route to olefins and aromatics from low-value plastic waste feedstocks, capable of processing all major plastics using proprietary catalysts and a fluid bed reactor-regenerator system. It can potentially reduce CO2 emissions by up to 50% compared to monomers from fossil resources.

Hydrothermal process technology that separates cotton and polyester fibers from polycotton waste and returns them to the raw material stage. Circ’s process is divided into three steps. First, textile waste from various sources is collected, then sorted and mechanically resized. Second, a hydrothermal process using water, pressure, and responsible chemistry separates polyester from cotton fibers, transforming the polyester into a liquid polymer and allowing separation from the cotton residue.

Notpla’s regenerative packaging, made from seaweed and plants, offers a unique, scalable solution to replace single-use plastics without releasing harmful chemicals. The Notpla’s packaging can be disposed of in three ways: 100% recyclable, home-compostable, or industrially compostable. Notpla’s packaging technology is manufactured with components from seaweed and plants, creating biodegradable materials that mimic certain properties of plastic but then break down naturally.

Brimstone has developed an industrial process for producing industry-standard Portland cement with significantly less carbon emissions. Brimstone’s decarbonized process is a breakthrough in cement production, making industry-standard Portland cement with carbon-free calcium silicate rock instead of limestone. Brimstone cement is chemically and physically identical to conventional Portland cement, with the same quality and performance. Portland cement contains two core products: Portland cement clinker and supplementary cementitious materials (SCM).

Nanoengineered separator coatings and liquid electrolytes for faster charging, low cost, and energy-dense lithium-ion and lithium-metal batteries. Sepion Technologies has deployed its proprietary material discovery platform powered by Artificial Intelligence (AI) to predict material properties such as flash point and viscosity to develop a non-flammable liquid electrolyte that can reduce the risk and severity of fires in electric vehicles (EV) batteries.