Dr. Ji-Hyung Han's research team from the Korea Institute of Energy Research has developed a high-performance carbon cloth-based electrode that maintains stable performance even under high current ...
Hydrogen sulfide (H 2 S), a toxic and corrosive byproduct of fossil fuel extraction, poses significant environmental and industrial challenges. While the conventional Claus process converts H 2 S into ...
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 ...
Researchers at the University of Jyväskylä (Finland) have led an international collaboration to study how semiconductor materials enable the production of green hydrogen through ...
South Korean researchers have developed a technology that allows catalyst electrodes for hydrogen production to be ...
Gold (Au)-based electrocatalysts used for hydrogen production via water electrolysis exhibit high chemical stability but low hydrogen evolution reaction (HER) activity. Alloying them with nickel (Ni) ...
Hydrogen plays a key role in European ambitions for green energy transition and climate neutrality by 2050. Approximately three per cent of global carbon emissions derive from the production of grey ...
Researchers developed scalable MOF electrodes that lower hydrogen costs to $2.71 per kg, offering a practical path toward large-scale clean energy production. Hydrogen is increasingly viewed as a ...
Myriophyllum verticillatum performs photosynthesis underwater, wherein the generated oxygen is transported along the stems and leaf veins to the tip regions through the combined effects of gravity and ...
A research team from two London universities have developed a multi-layer device that addresses the instability of organic materials in water to further their use in direct solar hydrogen generation.
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