Researchers develop an innovative solution that could lower costs and improve reliability for direct-to-device satellite ...

Researchers discovered a gut-liver serotonin axis where intestinal bacteria activate liver immune cells to clear drug ...

Researchers have presented the first example of an artificially made charged domain wall in a 2D ferroelectric material.

Researchers have developed an electronic tattoo to track moisture levels in plant leaves, potentially leading to improvements ...

Chip-scale laser controls trapped ions for quantum clocks and qubits, enabling portable, scalable systems with high fidelity ...

Seafood, insect, and mushroom industries generate chitin waste. New processing converts it into high-purity chitosan for ...

A new theoretical framework reveals why magnetoelectric nanoparticles behave unpredictably and how their nonlinear physics ...

Researchers developed a simple, energy-efficient method to isolate the right photons - along with their quantum properties.

Gold nanopillars on a microwave waveguide combine plasmonics and strain to push hBN quantum sensor sensitivity near the best values on record.

Quantum physicists observed atoms entangled in motion for the first time, using helium atoms with mass and gravity, opening new ways to explore how quantum mechanics interacts with gravity.

Scientists developed a new device capable of directly observing hidden electron interactions in graphene at room temperature.

Researchers developed an AR/MR typing method that turns any surface into a keyboard by using headset cameras and AI to detect fingertip blanching when pressing down, requiring no extra hardware.