Forced to run a labyrinth of carbon atoms uniquely arranged in twisted stacks, electrons do some rather peculiar things.

Researchers reveal that plasmons in boron-doped diamonds are driving advances in electronics, optics and quantum computing.

Lithium nickel oxide (LiNiO2) has emerged as a potential new material to power next-generation, longer-lasting lithium-ion ...

"It's like feeding an engine, a jet engine. The more knowledge that you're creating in the environment, the richer your academic experiences are," chancellor says. "The more you tend to ...

A group of scientists has developed special CO2-derived carbon nanotubes that can generate sustained plasma almost instantly ...

Helping to make hydrogen fuel cells a more viable alternative. Scientists make stunning breakthrough with new material vital ...

You've probably seen lightning flash across the sky, but do you know why and how it happens? This simple science activity teaches how lightning forms and ...

Researchers discovered new quantum states in twisted graphene layers, paving the way for energy-efficient electronics and ...

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

The discovery is a fundamental breakthrough in polymer research, as it opens up new possibilities for the development of more ...

Entanglement -- linking distant particles or groups of particles so that one cannot be described without the other -- is at the core of the quantum revolution changing the face of modern technology.