Electricity powers our lives, including our cars, phones, computers, and more, through the movement of electrons within a ...

Strontium titanate’s remarkable ability to perform at extremely low temperatures makes it a key material for next-generation cryogenic devices used in quantum computing and space exploration. Supercon ...

Engineers at the University of Delaware have uncovered a way to bridge magnetism and electricity through magnons—tiny waves ...

In this week’s edition of The Prototype, we look at why AI models struggle with finance, a revolutionary superconducting ...

Physicists show knotted cosmic strings may have dominated the early universe before collapsing to create matter—a theory ...

At 4 degrees Kelvin, most electro-optic materials falter. Nanoelectronics R&D center imec has now successfully engineered ...

Are quantum computing stocks in a bubble ... Battery simulations that classical computers can't handle could enable 50% ...

Researchers optimise ultraviolet avalanche photodiodes by fine-tuning electric field and absorption layers, increasing ...

Researchers at imec, Leuven, Belgium, in collaboration with KU Leuven and Ghent University, have re-engineered a common crystal, strontium titanate (SrTiO 3) so it behaves with record performance at ...

This year’s prize went to John Clarke (UC Berkeley), Michel H. Devoret (Yale and UC Santa Barbara), and John M. Martinis (UC ...

The electric vehicle (EV) sector is significantly boosting the demand for lithium, as highlighted in a recent report by Market Research Future Analysis. North America remains the largest market for ...

Penn State scientists have devised a new method to predict superconducting materials that could work at higher temperatures.