The Company has been awarded a grant to advance research and development of Electrochemical Manufacturing of High-Performance Graphite Based on Biomass-Derived Carbon. This award is one of the ...

GEN4 21700 cells break the 7,000 mAh barrier, achieving a record capacity of 7,030 mAh, which may represent one of the highest capacities ...

Hydrogen peroxide, a versatile chemical used in a wide range of applications—from medical disinfectants to semiconductor ...

Musket balls that have been buried in soil for hundreds of years can be converted into a key ingredient for next-generation ...

Oracle has expanded its partnership with fuel cell developer Bloom Energy, agreeing to procure up to 2.8GW of Bloom’s Solid ...

Solid oxide fuel cells (SOFCs) and solid oxide electrolysis cells (SOECs) are emerging as pivotal technologies for a ...

The mechanics of the onset of cancer or neurodegenerative disorders like Alzheimer's disease or ALS remain a mystery.

Converting methane, the primary component of natural gas, into higher alkanes and hydrogen, could be highly advantageous.

A new, highly efficient electrochemical process converts propane into propene at room temperature. The team that developed the process believes that it is an economically viable, environmentally ...

Researchers have developed a detailed three-dimensional electro-thermo-mechanical model to identify and quantify the swelling ...

A biodegradable implant powered by a new single-atom iron electrode delivered acupuncture-style pain relief in mice, then ...

DTU researchers say a 3D printed ceramic gyroid fuel cell delivers a fivefold jump in power-to-weight. The work was done by the Technical University of Denmark (DTU Energy) and focuses on Solid Oxide ...