Clyde Hydrogen, a Scottish startup based in Glasgow, has achieved a critical technical breakthrough by successfully producing hydrogen at pressures exceeding 100 bar. This accomplishment highlights their innovative decoupled electrolysis process that aims to address challenges in hydrogen production by matching intermittent renewable energy with hydrogen generation. The company's proprietary technology, stemming from the University of Glasgow's School of Chemistry, has the potential to revolutionize hydrogen production, unlocking more efficient high-pressure production and facilitating the widespread adoption of renewable hydrogen. With plans to deliver a pilot system by late 2025 and commercial products by 2027, Clyde Hydrogen is on a trajectory to play a significant role in the global transition to net-zero. To further support their growth and commercialization efforts, Clyde Hydrogen has launched a new funding round seeking up to £5m in investment. This funding, backed by organizations like Zinc, the University of Glasgow, and Scottish Government grants, will be pivotal in refining the production process, developing a production-ready system by 2026, and expanding the team to meet the rising demand for hydrogen technology. CEO James Peck expressed excitement for the future, emphasizing the validation of their research and development efforts and the transformation of lab-based innovations into commercially viable technology.