South Korean scientists have developed a new way to integrate a lithium-metal anode into a battery and reach higher energy capacity levels than current lithium-ion tech. They worked with a carbon ...

(Nanowerk News) Owing to the global trend of utilizing electric vehicles, there has been a surge in demand for next-generation secondary batteries with higher capacity and faster charging than the ...

The Korea Institute of Science and Technology (KIST) announced that its researchers formed a joint team with other researchers from the Gwangju Institute of Science and Technology (GIST) and developed ...

Hollow carbon nanoreactors with sub-nanometer wall pores trap chlorine complexes inside lithium-chlorine battery cathodes, enabling record capacity and current density.

Innovative bismuth-carbon nanofiber anode integrated with molybdenum disulfide demonstrates improved energy density and long-term cycling performance.

DOVER, USA, Oct. 02, 2025 (GLOBE NEWSWIRE) -- Sunrise New Energy Co., Ltd. (EPOW) today announced that its subsidiary, Sunrise (Guizhou) New Energy Materials Co., Ltd., has been granted an invention ...

Owing to the worldwide trend of utilizing electric vehicles, there has been a rise in demand for next-generation secondary batteries with higher capacity and faster charging than the lithium-ion ...

Figure (b): Charge/discharge cycle characteristics of Li-ion battery capacity. The new C/Ge/C structure demonstrated a high capacity of 910 mAh/g, about three times that of conventional carbon, for ...

Sodium-ion batteries have attracted extensive attention for their advantages over ubiquitous lithium-ion technology, including low-cost raw materials, improved safety, fast charging capabilities, and ...