Waste Prevention

Origin Materials has developed the Origin Platform, which replaces oil as the foundational feedstock for the material economy. Woody biomass is Origin’s feedstock, which comes from agricultural waste, wood waste, and even old cardboard. The Origin platform converts C-6 cellulose into four isolated building-block chemicals in one chemo-catalytic step with almost zero carbon loss. Their catalyst is recovered and doesn’t rely on expensive sugars or fermentation.

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.

Break down of discarded polyester into raw material for new plastic and new products developed by Protein Evolution. This technology aims to reduce polyester waste piling up in landfills and incinerators due to the complexity of the material. Protein Evolution is leading the way in transitioning the chemicals industry towards a low-carbon, circular economy by transforming plastic waste management production through its Biopure™ technology. Biopure™ process outputs are indistinguishable from the fossil-fuel-derived molecules used to produce polyester today.

FluoRork manufactures fluorochemicals in a hydrofluoric (HF) free way. Fluorochemicals are used in every day products like lithium-ion battery electrolytes, agrochemicals, and drugs. All fluorine atoms in fluorochemicals are derived from fluorspar. Traditionally, fluorspar is treated with sulfuric acid in an energy-intensive process to produce hydrofluoric acid (HF), the key precursor in traditional fluorochemical manufacturing. FluoRok aims to revolutionize conventional fluorochemical production with an HF-free fluorination process.

EcoCocon has developed an alternative wall panel system that is 89% straw and 10% timber. The company combines straw construction with modern technology to improve performance and achieve exceptional insulation. EcoCocon’s goal is to use as little as possible to protect forests from over-exploitation. The wood is derived from sustainable forestry, and the straw is sourced from local farms. These materials contain no glues and do not undergo any chemical treatment throughout the construction process. The walls are custom-made to fit any building design.

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.