U.S. scientists used density functional theory to reveal how sodium ions are stored in nanoporous carbon anodes for ...

Glass fibers from retired wind turbine blades can be converted into high-capacity silicon-carbon battery anodes, turning a ...

Conceived for stationary energy storage, the proposed sodium-ion battery configuration relies on an P2-type cathode material ...

Researchers at the Paul Scherrer Institute PSI have achieved a breakthrough on the path to practical application of lithium metal all-solid-state batteries—the next generation of batteries that can ...

At the anode, oxygen ions react with the fuel, either hydrogen (H 2) or methane (CH 4), generating an electrical current (e) and minimal waste products (water and some CO 2). At the cathode, oxygen ...

Amprius Technologies: silicon-anode battery growth in aviation/mobility, triple-digit revenue, FY26 EBITDA outlook, lower ...

The latest lithium-ion batteries on the market are likely to extend the charge-to-charge life of phones and electric cars by as much as 40 percent. This leap forward, which comes after more than a ...

We've been covering the exploration and development of silicon battery anodes for well over a decade, but most of the breakthroughs have come at laboratory level. The past few years have seen the ...

Scientists have discovered a new anode material that enables lithium-ion batteries to be safely recharged within minutes for thousands of cycles. Known as a disordered rocksalt, the new anode is made ...

One common trend in switch-mode power supplies, microprocessors, and digital circuit applications is reduced noise at higher operating frequencies. In order to make this possible, components with low ...

The well-established MSM II mechanical switch family is growing. With the MSM II (Common Anode), SCHURTER is introducing a ...