Researchers at Dongguk University unveiled a nanoscale-engineered hybrid anode material that enhances Li-ion battery energy storage and cycling stability.

Charged surfaces in contact with liquids—such as biological cell walls or battery electrodes—attract oppositely charged ions ...

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

This deep dive explores how synthetic biology and neuromorphic chips are powering next-gen odor detection tech that could sniff out illness and pollutants in real-time.

Innovative membranes from the University of Michigan enhance desalination processes, reducing brine waste and energy ...

Desalination plants, a major and growing source of freshwater in dry regions, could produce less harmful waste using ...

An angular-selective photoelectron source for the KATRIN experiment and an apparatus to determine the reflection properties of PTFE for vacuum UV light [pdf] Dr. Karen Bokeloh 2013 Setup and ...

Research from Tsinghua University reveals key insights into electrolyte wetting in lithium-ion batteries, enhancing manufacturing and performance efficiency.

The formation of a strong coordination structure, [Zn(H2O)6]2+ often increases direct contact between the solvated H2O and Zn anodes on the inner Helmholtz layer, which exacerbates undesirable side ...