Oxford nanoSystems (OnS) Revolutionizes Green Hydrogen Technology with Breakthrough Coating Plant
Key Ideas
- OnS commissions a demonstration coating plant to advance its nanoFLUX electrode coating technology for electrolysers, promoting hydrogen production.
- The proprietary nanoFLUX coating, combined with a catalyst, enhances hydrogen generation in alkaline electrolysers by over 50% at a lower cost than traditional coatings.
- Independent assessment by E4Tech confirms the cost-benefit advantage of nanoFLUX, positioning OnS for significant contributions to the green hydrogen industry's growth.
- Forecasts predict a 1000% increase in installed green hydrogen capacity by 2030, driving OnS's efforts to scale up and deliver performance benefits in production processes.
Oxford nanoSystems (OnS) has taken a significant step in revolutionizing green hydrogen technology with the commissioning of a demonstration coating plant. This plant enables the coating of parts for testing in electrolysers, facilitating the evaluation of the company's nanoFLUX electrode coating at a commercial scale. The nanoFLUX technology, aimed at enhancing hydrogen generation within alkaline electrolysers, has shown promising results in lab-scale testing with multiple manufacturers. By introducing a structured coating combined with a proprietary catalyst, OnS claims to boost hydrogen production capacity by over 50% while maintaining cost efficiency compared to traditional Raney nickel coatings. E4Tech's independent assessment has validated the cost-benefit advantage of nanoFLUX, positioning OnS as a key player in driving advancements in the green hydrogen sector. Dr. Ian Russell, CEO of OnS, emphasizes the importance of this milestone, highlighting the transition from lab tests to large-scale demonstrations to showcase the technology's scalability and performance benefits. With projections indicating a substantial growth in the green hydrogen industry, OnS is well-positioned to contribute significantly to the sector's expansion by leveraging its innovative coating technology.
Topics
Production
Technology
Innovation
Energy Transition
Green Energy
Cost Efficiency
Industry Growth
Electrolysis
Catalyst
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