DNA strands on tiny beads hide and reveal encrypted messages through programmable fluorescence patterns read by flow cytometry.

Virtual apertures let researchers isolate and solve atomic structures from individual nanocrystals embedded in dense clusters, providing valuable new data for energy and pharmaceutical applications.

Researchers decoded the synthesis mechanism of heavy-metal-free CuInS2 quantum dots and built a photoelectrochemical device ...

Researchers developed compilation-based quantum process tomography, a framework that reconstructs quantum operations using fewer measurements than conventional methods.

Computer simulations reveal that mesophases dramatically speed nanoparticle crystallization and improve crystal quality by ...

Scientists engineered a nanostring that cascades energy through five vibration modes from a single push, opening new paths for ultrasensitive nanoscale sensors.

Paleomagnetic analysis of 28 Ryugu asteroid particles reveals stable magnetization acquired within millions of years of solar ...

Physicists confirmed the full two-dimensional six-state clock model in atomically thin nickel phosphorus trisulfide, ...

BIOPIX, a retina-inspired biohybrid image sensor combining biological liquid environments with organic electronics to generate real-time images on a display.

Researchers have discovered how tiny organisms break the laws of physics to swim faster. Such secrets of mesoscale physics ...

Tiny life forms tucked into debris from an asteroid hit could catapult to other planets - including Earth - and survive, a new study finds.

A pulsed thermal shock technique produces micron-thick flexible graphite films ten times faster than conventional methods without sacrificing crystalline quality or thermal performance.