A new staining technique makes invisible polymer binders in Li-ion battery electrodes traceable, enabling better placement control to boost battery performance.

Researchers at the University of Oxford have developed a powerful new method to visualize an essential lithium-ion battery electrode component that had been extremely difficult to trace before. The ...

Years of Carbon Innovation Founded on the principles of quality, growth, and customer value, Ao Hui Carbon’s journey is one of outstanding development. Today, the company operates three ...

Selenium nanoparticles (NPs) are a good choice for biological and electrochemical sensing applications due to their low toxicity. In an article published in the journal ACS Applied Nano Materials, a ...

Researchers at the University of Oxford have developed a powerful new method to visualise an essential lithium-ion battery electrode component that ...

A new staining technique developed by researchers at the University of Oxford has helped ...

My name is Mark Staub. I am an application specialist in the Global Applications Group at TA Instruments. I received my Bachelor of Science in chemistry at Gettysburg College and subsequently earned ...

Dragonfly Energy, a manufacturer of deep cycle lithium-ion batteries, has announced the results of an Energy Cost & Sustainability Assessment conducted by Sphere Energy, a global battery testing and ...

The outlook for the graphite market is promising due to its usage in the battery industry and energy storage applications, as well as steel-making. With China dominating the natural graphite market, ...