A novel cathode material consisting of lithium, iron, and chlorine brings higher density, durability, and self-healing to ...

When it comes to developing resilient battery materials, engineers much look to innovations in metal chemistries and ...

A team of McGill University researchers, working with colleagues in the United States and South Korea, has developed a new ...

Thicker battery electrodes pack in more active materials, promising higher energy density. However, when it comes to ...

E-Vega Mobility Labs has developed EV Doctor, a compact, AI-powered device that diagnoses EV battery health in just 15 ...

This free Cl – was subsequently captured by pyrrole-based neutral anion receptors to form negatively charged receptor–Cl – complexes. The ion pair of the resulting positively and negatively charged ...

You've likely heard about a rule that you shouldn't charge some batteries beyond 80%, and that includes Tesla batteries, but what harm will it actually do?

Breakthrough research explains how brain proteins (VGLUT1) fill nerve cell sacs with glutamate, a key messenger. It details their dual role as a chloride channel and how chloride ions boost glutamate ...

Said et al. (2012) demonstrated that the addition of NS significantly decreases the average charge and physical penetration depth in concrete, while both total porosity and threshold pore size ...

Multivalent-ion batteries have attracted growing attention due to their high theoretical energy density that potentially outperforms Li-ion batteries. One of the critical challenges of realizing a ...

The heavy-ion induced electron/hole charge yield in silicon-oxide versus electric field is presented. The heavy-ion charge yield was determined by comparing the voltage shifts of MOSFET transistors ...

Experimental charge-changing cross sections for uranium ions incident on H2 and N2 at 1.4 MeV/u are presented and extrapolation to higher energies is discussed briefly. The beam losses caused by ...