I n a significant advancement for integrated clean energy systems, NuScale Power Corporation, in collaboration with GSE ...

The electrolysis technology can be classified into low- and high-temperature electrolysis. While low-temperature electrolysis operating at temperatures below 100° Celsius has long been developed ...

Advancing high temperature electrolysis: Splitting water to store energy as hydrogen Date: April 21, 2020 Source: DOE/Idaho National Laboratory Summary: Recently, researchers developed a new ...

Researchers have elucidated the mechanism of the initial degradation phenomenon that triggers the performance drop of high-temperature solid oxide electrolysis cell systems, using advanced ...

The high temperatures require expensive materials and result in faster degradation, making the electrochemical cells cost prohibitive.

Dublin, Sept. 05, 2022 (GLOBE NEWSWIRE) -- The "Growth Opportunities for Breakthrough Innovations in High-temperature Electrolysis Technology" report has been added to ResearchAndMarkets.com's ...

Developing nanocatalysts that do not degrade at high temperatures above 600 degrees Celsius, more than doubling green hydrogen production with high-temperature water electrolysis cells ...

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 ...

This research study focuses on disruptive technologies and the latest achievements in electrolyzer technologies. The study highlights the necessity for electrolysis technology and discusses the ...

As shown in this schematic of a high-temperature steam electrolysis (HTSE) system, an integrated high-temperature solid oxide electrolysis cell (SOEC) uses thermal energy (steam) to reduce ...

Scientists developed a new nanocatalyst for high-temperature water electrolysis that enhances hydrogen production efficiency and stability, potentially lowering the cost of green hydrogen production.