Iberdrola is making a bold move to become a global frontrunner in green hydrogen technology. With a portfolio of 60 green hydrogen projects spanning Spain, the United Kingdom, Australia, Brazil, and the United States, the company is poised to invest a staggering €9 billion by 2030.
A study by the Norddeutscher Reallabor (NRL) highlights the pivotal role of green hydrogen in Germany’s industrial decarbonization efforts. The study estimates the country’s future demand for green hydrogen to reach at least 211 TWh annually as industries transition to climate-friendly technologies.
MIT engineers are on the verge of a clean energy breakthrough that could revolutionize hydrogen production and help eliminate the dependence on fossil fuels.
Texas A&M University scientists are exploring a more efficient path for green hydrogen production, tapping into the potential of electrocatalysts to revolutionize the hydrogen evolution reaction.
A team of scientists from Latvia, in collaboration with experts from Romania, Spain, and Germany, is pioneering an innovative solution that could revolutionize hydrogen production: artificial intelligence.
The cost of producing green hydrogen is a significant barrier, with a price tag of up to $8 per kilogram, roughly six times the cost of liquefied natural gas in Asia. To make green hydrogen more accessible, there’s a need to reduce production costs significantly.
Hydrogen, often hailed as the future of clean energy, has taken a significant step closer to widespread adoption with a groundbreaking solar cell innovation. Researchers at the University of Tübingen have unveiled a new type of solar cell that boasts remarkable efficiency, promising decentralized and cost-effective green hydrogen production on an industrial scale.
Stars, like our own Sun, produce energy through nuclear fusion. In this process, two light atomic nuclei combine to form one or more heavier atomic nuclei and additional sub-atomic particles, such as neutrons.
Fraunhofer UMSICHT researchers are developing a new process called methanol-assisted water electrolysis (MAWE) that could revolutionize the way hydrogen is produced.
Scientists at the Swiss Federal Institute of Technology in Lausanne (EPFL) have synthesized the first-ever metal-organic frameworks (MOF) membrane with a thickness of just one unit cell. The ultrathin film yields record-high separation performance of hydrogen.
