Lithium metal is considered as an ideal anode material due to its exceptionally high theoretical capacity and low electrochemical potential. However, during repeated charging and discharging, lithium ...

Researchers reveal new mechanisms governing the storage and the movement of sodium ions in hard carbon nanopore anodes.

Supercomputer-based simulations reveal the intricacies of sodium-ion clustering and transport in hard carbon nano-pores, report researchers from ...

A nanodevice developed at EPFL produces an autonomous, stable current from evaporating saltwater by using heat and light to control the movement of ions and electrons. Previously, researchers in the ...

Lomiko Metals Inc. ("Lomiko" or the "Company") is pleased to announce the hiring of Dorfner Anzaplan GmbH ("Anzaplan") to conduct the anode material testing as the input to the downstream Preliminary ...

Big batteries used in electric vehicles and grid storage have long relied on metals with tarnished supply chains. But this is changing.

Due to cheaper cost, ease of production and environmental benefits, battery makers and electric vehicle manufacturers have long pursued dry processes for building electrodes. A new dry-processed ...

Researchers at the University of Oxford have developed a powerful new method to visualize an essential lithium-ion battery electrode component that had been extremely difficult to trace before. The ...

Scientists can now see a hidden battery ingredient — and it could supercharge how fast and how long lithium-ion batteries ...

Traditional EV cells use a liquid or gel electrolyte, which is highly-flammable. So why haven’t we made the switch to solid-state batteries?

Abstract: The demand for solid-state circuit breakers (SSCBs) in modern DC power systems is growing because of their fast switching speed, high efficiency, and reliable fault protection. The existing ...