EnaDyne has developed plasma catalysis reactors that are enabling the recycling of CO2 into green chemicals and eFuels. This technology can produce a wide range of products, such as methanol, ethylene, or formaldehyde, at or even below the prices of fossil alternatives decarbonizing the chemical industry and allowing for the creation of a profitable and carbon-negative circular economy with the potential to sequester gigatons of CO2 .
enaDyne’s patented technology includes a ceramics-based electrode material which works at low temperatures and pressures and is capable of turning CO2 and a hydrogen source into green, sustainable chemicals and fuels in a single, energy-efficient-process step.
With the enaCeramics electrode technology, plasmas can be ignited more efficiently. The resulting reaction stability results in higher efficiency and selectivity. In addition, enaCeramics electrodes offer high chemical abrasiveness and adaptable surface properties for long reactor lifetimes.
In a single process step, the basic building blocks of modern carbon chemistry including methanol, ethylene, propylene, ethanol, propanol, butanol, and formaldehyde are created from CO2 - sustainably for a wide range of applications, such as synthetic fuels, chemicals, building materials, plastics and fertilizers offering considerable flexibility and scalability.