A research team has developed a highly stable and efficient water oxidation catalyst, marking a major advancement in the ...

As the world moves toward electrification to increase energy efficiency and reduce greenhouse gas (GHG) emissions, the demand ...

A new catalyst structure offers a potential pathway toward more cost-effective hydrogen production via water electrolysis. The material centers on mesoporous single-crystalline Co3O4 doped with ...

Researchers have developed a novel copper oxide-based electrode material and successfully applied it to aqueous zinc-ion ...

Devices are often limited by the bulkiness of their batteries—but what if we could shape the batteries into whatever form we ...

The global electric vehicle (EV) market is experiencing robust growth, with one in five cars sold being electric.  Last year, the number of EVs sold grew by 25%, and with that, EVs accounted for 21% ...

Department of Chemistry and Biochemistry, University of Oregon, Eugene, Oregon 97403, United States Oregon Center for Electrochemistry, University of Oregon, Eugene, Oregon 97403, United States ...

A recent breakthrough, published in the Chinese Journal of Catalysis, presents a compelling alternative: electrochemical ... coupling of HMF ECH (at the cathode) with the formic acid oxidation ...

Electrochemical hydrogenation ... Traditional strategies often rely on alkaline conditions to mitigate the competing hydrogen evolution reaction, posing challenges in sourcing hydrogen atoms for ...

At the heart of the battery is a titanium dioxide-based semiconductor commonly used in solar cells. By incorporating radiocarbon on both the cathode and anode, this dye-sensitized betavoltaic cell ...

The research team developed a photovoltaic-electrocatalytic system that produces ammonia at the cathode and glycolic acid at the anode ... electrochemical ammonia production using perovskite solar ...