The rapid evolution of lithium-ion batteries has driven significant research into novel anode materials that ... lithium ions into an electrode material during battery charge/discharge cycles.

The project centres on the development of an integrated base for the production of 200,000 metric tonnes of lithium-ion ...

Lithium-ion batteries are found in virtually all types of electrical and electronic devices, including advanced industrial ...

Researchers in Australia have built a battery that stops zinc dendrites and maintains 99.8 percent capacity after 500 cycles.

Researchers at the University of Adelaide have developed a new dry electrode for aqueous batteries which delivers cathodes ...

Lithium–oxygen (Li–O₂) batteries are poised to revolutionize energy storage with their ultrahigh theoretical energy density.

With electric vehicles, the challenge for battery makers is straightforward: make batteries that can hold more energy, so the ...

Inlyte Energy is reviving and scaling iron-sodium battery technology to create a safe, low-cost, and domestically sourced ...

A new study in Small presents a 3D SiOx-embedded porous carbon nanofiber host that stabilizes lithium-metal batteries by ...

The evolution of lithium‐ion battery anodes has emerged as a cornerstone in the quest for improved energy storage, with a particular focus on silicon-based materials and their composites.