The new electrode design overcomes the low electrical conductivity issue of (oxy)hydroxide catalysts, improving hydrogen and oxygen evolution reactions. The electrode combines metallic nickel-tungsten ...
Seawater electrolysis holds immense promise as a means to decarbonize the global energy sector. However, challenges such as anode corrosion by chloride ions, unwanted chloride oxidation reactions, and ...
A research team led by Dr. Ji-Hyung Han from the Convergence Research Center of Sector Coupling & Integration at the Korea Institute of Energy Research (President Yi, Chang-Keun, hereinafter “KIER”) ...
Hybrid water electrolysis technology can generate green H 2 at the cathode and value-added chemicals at the anode simultaneously through energy-saving pathway. Thermodynamically more favorable ...
South Korean Chung-Ang Univ. researchers developed a durable, precious-metal-free catalyst that could reduce the cost of ...
Due to its high availability, water is considered the most useful starting material for hydrogen production. Ideally, the conversion of water into hydrogen produces a second useful substance: hydrogen ...
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