Green hydrogen can be produced through water electrolysis technology, which uses renewable energy to split water into hydrogen and oxygen without emitting carbon dioxide. However, the production cost ...

Non-ferrous metals such as copper, zinc, and tin are fundamental to sectors ranging from electrical infrastructure and construction to renewable energy and advanced manufacturing. Electrolysis—the ...

As green hydrogen emerges as a key next-generation clean energy source, securing technologies that enable its stable and cost ...

The global green hydrogen market is experiencing exponential growth, driven by decarbonization targets, with forecasts projecting substantial long-term value. Key growth drivers include rising demand ...

BERLIN--(BUSINESS WIRE)--To become independent of Russian natural gas imports by 2027, the European Union is increasing near-term imports of US or Azerbaijan liquefied natural gas (LNG) or liquefied ...

A research team has developed a composite catalyst using the novel material MXene that suppresses the generation of chloride ions—one of the key challenges in seawater electrolysis. This research ...

Ready-to-scale electrolysis technology and favorable market conditions are poised to accelerate the green hydrogen industry. In partnership withthyssenkrupp nucera Unlike conventional energy sources, ...

Dr. Juchan Yang’s research team at the Hydrogen & Battery Materials Center, from the Energy & Environment Materials Research Division of the Korea Institute of Materials Science (KIMS), has developed ...

EQS-Media / 13.03.2024 / 07:00 CET/CEST thyssenkrupp nucera and Fraunhofer IKTS Agree on a Strategic Partnership in SOEC Technology Strengthening thyssenkrupp nucera's hydrogen technology portfolio ...

Manufacturing process and evaluation results of high temperature water electrolysis cell with nanomaterials. Credit: Korea Institute of Science and Technology (KIST) Green hydrogen can be produced ...