In this, the fundamental limitation is solid electrode’s ability to undergo electron transfer reactions with the solvated ...

Recently, one of those companies published a paper that describes the physics of their qubit system, which involves lone electrons floating on top of liquid helium. So how do you get an electron to ...

From computer chips to quantum dots—technological platforms were only made possible thanks to a detailed understanding of the ...

Scientists directly observed dark excitons in atomically thin materials, revealing how they evolve and paving the way for ...

At the heart of all lithium-ion batteries is a simple reaction: Lithium ions dissolved in an electrolyte solution ...

Ultrafast electron dynamics and charge migration describe the rapid movement and redistribution of electrons within molecules, processes that occur on attosecond to few-femtosecond timescales. Such ...

Quantum computing's biggest challenge is no longer proving the concept works – it is figuring out how to make the technology practical at scale. Today's qubit ...

The discovery could significantly reduce the production costs of fuels, chemicals, and materials. A research team from the ...

Scientists at OIST have, for the first time, directly tracked the elusive “dark excitons” inside atomically thin materials.

A team of researchers from the University of Minnesota Twin Cities College of Science and Engineering and the University of ...

Synthetic diamond research examines organic molecular interactions under the microscope. Scientists have long developed different techniques to produce artificial diamonds, but a new method from ...