EcoCeres is a renewable energy innovator dedicated to transforming biomass waste into sustainable fuels, chemicals, and materials. With over a decade of expertise in biomass utilization, the company develops proprietary technologies to produce Sustainable Aviation Fuel (SAF), Hydrotreated Vegetable Oils (HVO) as a renewable diesel alternative, and Cellulosic Ethanol (CE) as a gasoline blend.
Ductor addresses today’s environmental challenges in the energy and agriculture sectors by unlocking bioresources to make food production sustainable and energy generation clean. The company repurposes organic waste, transforming it into carbon-reduced fertilizers and renewable energy. Specializing in high-nitrogen organic waste that cannot be processed in conventional biogas systems, Ductor uses waste from agriculture, aquaculture, and other organic sources. This waste is fed into the Ductor reactor, where a patented microorganism consortium ferments it.
Reverion, a German-based startup, is developing new generation micropower plants that maximize the potential of biogas and utilize excess solar wind and wind power that would otherwise go to waste. Reverion has patented and validated a novel technology based on high-temperature fuel cells. This is the first all-in-one solution with a reversible system design that electrochemically converts biogas or hydrogen into electricity with an efficiency of 80% and can switch to electrolysis mode to produce green hydrogen or methane.
Infinium produces electrofuels (eFuels) to help the heavy transit and chemicals sectors achieve net zero by reducing CO2 emissions. Infinium eFuels are made from green hydrogen derived from renewable power and captured carbon dioxide in a proprietary process developed and commercialized over a decade. Infinium’s unique production process facilitates the on-site production of ultra-low carbon transportation fuels and chemicals such as sustainable aviation fuels (eSAF), eDiesel, and eNaphtha.
SixRing™ specializes in converting sustainable biomass into high-value intermediates, fine chemicals, biofuels, and advanced materials using patented chemical compositions and low-energy processes. The technology operates under ambient conditions, efficiently extracting cellulose and Lignin-Hemicellulose-Depolymerized-Organics™ (LHDO™) from biomass. These components can be upgraded to biofuels such as Sustainable Aviation Fuel (SAF), diesel, and gasoline.
Nextchem is an Italian company within the Maire Tecnimont Group and is dedicated to Sustainable Technology Solutions. The company's expertise in nitrogen, hydrogen & circular carbon, fuels & chemicals, and polymers, allows Nextchem to deliver groundbreaking solutions and processes to fully support energy transition. Building on the group's 70+ years of operation, Nextchem is dedicated to developing and offering technology solutions, processes, basic engineering designs, proprietary equipment, and catalysis to drive global decarbonization forward.
Woodland Biofuels is a company that converts waste biomass to hydrogen, renewable natural gas, methanol, or ethanol. The company uses gasification, which involves converting biomass feedstock into syngas through a high-temperature, oxygen-limited process. The syngas is then subjected to highly efficient catalytic reactions to produce carbon-negative fuels. Woodland’s technology uses waste biomass from low-cost, non-food sources such as forest, industry, agricultural, and municipal waste as input feedstock.
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.
Bloom Bio Renewables uses aldehyde-assisted fractionation (AAF) to separate cellulose and stabilize lignin polymers and hemicellulose-derived sugars in biomass. Due to this stabilization, lignin and hemicellulose can be valorized more efficiently, allowing Bloom to transform them into various products. These lignin-derived products are antioxidant, antimicrobial, water-soluble, and efficient in low concentrations. They also filter UV rays and function as excellent emulsifiers and dispersants.
Twelve uses its Opus™ platform to transform CO₂, water, and renewable energy into hydrocarbons via CO₂ electrolysis. This is achieved using Membrane Electrode Assemblies (MEA), a CO₂-reducing catalyst that electrifies CO₂ and water while only producing oxygen, synthetic gas, and water. This synthetic gas is then used to produce Power-to-Liquid (PtL), Sustainable Aviation Fuel (SAF), and E-Naphtha™, the building block for CO2 Made® products.