The worldwide push for sustainability requires better, more durable batteries to support renewable energy systems and ubiquitous electronic devices.

Sodium-ion batteries (SIBs) are emerging as a sustainable alternative to lithium-ion batteries, thanks to sodium’s abundance and low cost, but their true charging speed remains uncertain due to ...

The rapid development of the new energy industry in recent years has emphasized the critical role of lithium batteries as reusable and rechargeable batteries in many industrial applications. During ...

Researchers at the Tokyo University of Science have experimentally demonstrated that sodium-ion batteries (SIBs) ...

Researchers at Tokyo University of Science showed that sodium-ion batteries with hard carbon anodes can charge faster than lithium-ion batteries by using a diluted electrode method that reveals sodium ...

Zeta potential is a key indicator of the stability of colloidal dispersions and nanoparticle suspensions. It measures the electrical potential difference between the bulk of the liquid and the ...

Researchers at Tokyo University of Science (TUS) have developed a simple calcium-doping technique that dramatically improves the air and moisture stability of sodium-ion battery cathodes. The study ...

In this interview, AZoNano speaks with Serife Korkmaz, Turbiscan Product Manager at Microtrac, about optimizing lithium-ion battery slurry stability using Turbiscan technology. Can you please ...

Aqueous zinc-ion batteries have garnered attention for their cost-effectiveness, safety, and environmental credentials. However, their widespread adoption has been plagued by severe zinc dendrite ...

As a flame changes shape by the millisecond, its heat release and stability are affected. Purdue University researchers have created patent-pending methods to dynamically manipulate a flame — from ...