b'S U S T A I N A B I L I T YSustainable Fuels Production SystemDemonstrated in Pilot ProgramS COA investment company Syzygy Plasmonics builds reactors that use light instead ofcombustion to electrify chemical manufacturing, which can power a cleaner, safer world. Utilizingtechnology licensed from Rice University and novelengineering, Syzygy is commercializing a universalphotocatalytic reactor platform, placing it in the energymarking spectrum as a disruptive decarbonization company that aligns with Sumitomos sustainability goals.When powered with renewable electricity, this tunable technology reduces both cost and emissions from manydifferent chemical reactions. SCOA recently announced its participation as a sponsor for Syzygy Plasmonicspilot program with the nonprofit research institute RTI International to demonstrate sustainable fuelproduction at the RTI facility in Research Triangle Park, North Carolina, USA. The new technology has the potential to help decarbonizeWe believe companies like Syzygy Plasmonics are capable transportation by converting two potent greenhouse of bringing real change to the world through their ground-gases, carbon dioxide (CO2) and methane (CH4), intobreaking, environmentally supportive technology, said low-carbon-intensity fuels that can be used to replaceKensuke Sugii, Unit Head of Hydrogen Business Unit, Energy petroleum-based jet fuel, diesel, and gasoline. The six-monthInnovation Initiative Americas at SCOA. This is why we keep testing period will yield results used to build a techno-doubling down on our support of their business, research economic analysis for constructing a commercial-scaleand development, knowing their work is what will move the Syzygy sustainable fuels plant.needle in the energy transition space. The new technology has the potential to help decarbonize transportation by converting two potent greenhouse gases,carbon dioxide (CO2)and methane (CH4),into low-carbon-intensity fuelsthat can be used to replacepetroleum-based jet fuel,diesel, and gasoline. 12 visions Spring 2023'