Learn what sodium-ion batteries are, how they compare to lithium-ion, and whether they could become the future of energy ...

Current Li-ion batteries struggle with fast charging, low temperatures, and thick electrodes due to challenges in managing ...

A team of materials scientists, chemical engineers, and environmental scientists affiliated with a host of institutions in ...

Lithium-ion EV batteries can charge 500% faster at temperatures as low as 14°F, solving cold-weather charging issues.

A team of chemists found a way to see into battery interfaces -- tight, tricky spots buried deep inside the cell have long frustrated battery designers.

Key components in a traditional lithium-ion battery include an anode, electrolyte, separator and cathode. They all work together to shuttle electrons between an EV’s charge and discharge cycles. The ...

A microbial electrochemical technology capable of recovering 90%–95% of lithium from spent lithium-ion batteries has been ...

Groundbreaking research reveals a hidden degradation mechanism in lithium-ion batteries, offering insights for extending ...

While Karl Fischer (KF) titration is known as the champion of battery manufacturing quality control, techniques such as Loss-on-Drying (LOD) and Thermogravimetric Analysis (TGA) help it achieve its ...

Global Green Carbon Market is valued at approximately USD 8.57 million in 2023 and is anticipated to grow with a healthy growth rate of more than 12.01% over the forecast period 2024-2032. Read the ...

Global concentration of nickel production and refining in Indonesia and China is raising concerns over supply security and ...

Collaboration involving Osaka University researchers finds that a cation effect influences the durability of electrochemical ...