The researchers also found that the naturally-derived polymer capsules have a stable shelf life of a year and are easily ...

New technique could improve the scalability of trapped-ion quantum computers, an essential step toward making them ...

Spiral scanning creates six distinguishable polarization patterns in ferroelectric films, enabling data storage beyond binary ...

Real-space measurements reveal chiral nanowires actively rotate electron spins, challenging the idea that they merely filter ...

Researchers studied a potassium cobalt arsenate honeycomb, uncovering magnetic behaviors that may lead to quantum spin ...

Reshaping graphene from flat sheets into compact particles solves a key manufacturing problem, enabling printable conductive ...

Scientists demonstrated X-ray four-wave mixing to track correlated electron motion, revealing how energy and information move ...

Researchers developed a compact, low-noise bandgap reference using a single resistor, improving stability and efficiency for ...

An open platform combines automated chemical synthesis, optical screening and AI modeling to control nanocrystal growth and ...

Researchers have developed a new class of redox-switchable molecular mediators that activate halogen bonding to more ...

Researchers tracked real-time light-induced charge on gold nanorods, modeling them as capacitors, aiding CO2 reduction, water splitting, and solar energy conversion.

Researchers show symmetric materials can generate strong photocurrents via engineered surface states, enabling efficient solar energy conversion and ultrafast spintronics.