Carbon nanocoatings enhance Li-ion battery performance by improving conductivity, structural stability, and thermal resistance, extending cycle life and safety.

Cheol's team at KERI's Next Generation Battery Research Center has developed an "enhanced coprecipitation method" that ...

In a recent study published in ACS Letters, a team led by researchers at the United States Department of Energy's (DOE) ...

Researchers at Argonne have discovered that superconducting nanowire photon detectors can also be used as highly accurate ...

The existing 'coprecipitation method' is upgraded by R&D collaboration. By identifying the mechanisms of dissolution and ...

It’s part of the effort to deliver a cheaper, safer alternative to dominant lithium-ion packs. Scientists develop ...

In battery research, Raman spectroscopy is a key tool for analyzing materials, monitoring degradation, and optimizing performance in energy storage systems.

which was used to explain its increased ionic conductivity. Architecture of a deep-convolutional generative adversarial network used for microstructural image generation for lithium-ion battery and ...

Many of the devices that make modern life convenient and efficient rely on rechargeable batteries. Lithium-ion batteries, one ...

The EPA Phase 1 removal process involves clearing hazardous materials from properties, including widely used lithium ion ...

Daniel Madrzykowski and Nathaniel Sauer provide the details of the Fire Safety Research Institute's testing that shed more ...