The development of inert anodes represents a significant leap forward in the evolution of aluminum electrolysis, promising a reduction in carbon emissions and an improved environmental footprint for ...

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 ...

Prof. Lu Zhiyi, Prof. Wang Aiying and their collaborators at the Ningbo Institute of Materials Technology and Engineering (NIMTE) of the Chinese Academy of Sciences have elucidated the corrosion ...

Tsukuba, Japan—Water electrolysis utilizing renewable energy sources emerges as a promising clean method for hydrogen production. However, its extensive freshwater consumption poses limitations to ...

A groundbreaking article published in Nano-Micro Letters provides a comprehensive blueprint for accelerating green-hydrogen production. Authored by Siyu Ye from Guangzhou University, the study ...

When the hydrogen ions arrive at the cathode, they displace the lithium atoms in each lithium nitride molecule, creating NH₃ – or ammonia. This is released from the cathode surface and captured. "The ...

University of Tsukuba researchers develop highly durable electrodes for hydrogen production from seawater. The multi-elemental alloy electrode can sustain anode performance for over a decade, powered ...

Solid oxide electrolysis cells (SOEC) show great promise as an alternative to batteries for storing excess renewable energy as they achieve almost 100% electrical-to-H 2 efficiency. In the SOEC, ...

The water electrolysis method, a promising avenue for hydrogen production, relies on substantial freshwater consumption, thereby limiting the regions available with water resources required for water ...