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 ...

A recent review in Nature Reviews Clean Technology presents, for the first time, a pathway for scaling up decoupled water electrolysis (DWE) technologies to produce industrial-scale green hydrogen.

Dr. Joungho Park and his research team from the Energy AI and Computational Science Laboratory at the Korea Institute of Energy Research (KIER) have conducted an economic analysis of water ...

Toyota City, Japan, Feb 5, 2024 - (JCN Newswire) - - Chiyoda Corporation and Toyota Motor Corporation have agreed to jointly develop a large-scale electrolysis system and construct a strategic ...

A groundbreaking review reimagines solar-driven water electrolysis not as a mere hydrogen production technology but instead as a relatively versatile platform for sustainable chemical manufacturing, ...

Researchers developed a catalyst that enhances the stability of alkaline water electrolysis systems. A research team consisting of Professor Yong-Tae Kim, Dr. Sang-Mun Jung, and Yoona Kim, an MSc, ...

Important milestone towards realization of 100 MW-class alkaline-water electrolysis systems TOKYO & NEW YORK & DÜSSELDORF, Germany--(BUSINESS WIRE)--The Japanese technology company Asahi Kasei is ...

The SOEC system is capable of producing 6Nm³ of hydrogen per hour, with an electrical efficiency of 83% (LHV basis) when connected to an external heat source. Compared to existing alkaline and PEM ...

Asahi Kasei has announced the official approval of new facilities at its Kawasaki Works to manufacture electrolysis system components for both alkaline water electrolysis and chlor-alkali electrolysis ...