The mystery of quantum phenomena inside materials—such as superconductivity, where electric current flows without energy loss—lies in when electrons move together and when they break apart. KAIST ...

Whether in a smartphone or laptop, semiconductors form the basis of modern electronics and accompany us constantly in ...

It’s worth stepping back from the geopolitical competition to assess what the energy transition has accomplished.

Korean researchers detect hidden semiconductor defects 1,000× more sensitively, boosting efficiency, lifespan, and design ...

A UB-led experiment confirms that ferromagent iron found a way to sync with the superconducting metal vanadium.

A multi-disciplinary team of researchers linked atomic-scale features to efficient heat-to-electricity conversion, offering ...

A new two-electron bromine chemistry sharply cuts corrosion while boosting performance, opening a clearer path for zinc–bromine flow batteries at grid scale.

A 4 to 20 mA loop current is a popular terminology with Instrumentation/Electronics engineers in process industries. Field transmitters like pressure,temperature,flow ...

A light pulse redirects electrons in an ultrathin layered material, creating a stable new state without heat or damage and suggesting a low-energy route to faster electronics. (Nanowerk Spotlight) ...

A condition long considered to be unfavorable to electrical conduction in semiconductor materials may actually be beneficial in 2D semiconductors, according to new findings by UC Santa Barbara ...

The battery as we know it today was an invention of Italian chemist and physicist Alessandro Volta. He witnessed electricity splitting water into its constituent elements of oxygen and hydrogen and ...