(Web Desk) - Scientists have used a neat chemistry trick to tackle a major challenge facing future batteries. Their ...

All-solid-state batteries are emerging energy storage solutions in which flammable liquid electrolytes are substituted by ...

Lithium dendrites pose a significant challenge to the development of high-energy Li metal batteries. They can fracture solid-state electrolytes, compromising device safety and performance. Therefore, ...

Korean researchers have ushered in a new era for electric vehicle (EV) battery technology by solving the long-standing dendrite problem in lithium-metal batteries. While conventional lithium-ion ...

A new chemistry breakthrough could unlock 12-minute charging and 500 miles of range for electric vehicles. The new design ...

In a recent study published in Small, researchers introduced a three-dimensional, freestanding porous carbon nanofiber (PCNF) structure embedded with silicon oxide (SiOx), designed to address critical ...

Over the last year or so, a lot of manufacturers have been investing heavily in getting solid-state battery technology ready for the new electric car market. This has been an uphill battle for many ...

Lithium-metal anode-free batteries promise higher energy density and longevity, but their biggest problem is the dendrites that form inside the battery and ruin it. QuantumScape claims it solved this ...

This schematic illustrates how atomic-scale Ni catalysts embedded in a porous graphene matrix address key challenges in Li–O₂ batteries. By simultaneously enhancing cathode reaction kinetics and ...

The ongoing electrification of everyday items has resulted in the proliferation of batteries, and spurred continued development for automotive and grid use. Lithium-ion batteries still dominate the ...

Researchers from the Korea Research Institute of Chemical Technology have developed a novel lithium composite material that significantly improves safety and lifespan, surpassing current materials by ...