Researchers combine photonics and nanotechnology to identify molecular cancer signals five to eight years earlier than traditional diagnostic tools.

Lead-free tungsten bronze ceramics combine high-entropy design and bandgap engineering for high energy density and ultrafast ...

AI analysis of microscopy images reveals that a thin water layer on mineral surfaces guides the self-assembly of protein ...

Iron-based metallic glass alloys compatible with 3D printing reduce energy losses in electric motors by eliminating crystal structure friction.

A scalable spray-drying method produces graphite, carbon nanotube, and silicon composite anodes that retain 95% capacity after 100 cycles in lithium-ion batteries.

Researchers developed a dual-modulated vertical transistor that suppresses leakage at nanoscale channels and supports ...

Researchers discovered that crystal dislocations in antiferroelectric PbZrO3 thin films generate ordered polar antihedgehog lattices, creating a new defect-engineering approach for polar topologies.

Silicon nanotube arrays deliver functional mRNA into human pluripotent stem cells for the first time, achieving up to 64% transfection without compromising stem cell identity.

A new neuromorphic device controls hydrogen ions to mimic synaptic learning and memory, achieved for the first time in a vertical two-terminal architecture.

Light-emitting structures that curl off the chip surface could enable advanced displays, high-speed optical communications, ...

MLIP calculations identify optimal dopants for photocatalytic Sn3O4. Aluminum doping boosted hydrogen production 16-fold, ...

Nanodiamond quantum sensors mounted on magnetic microbots achieve coherent spin control while moving freely through fluid, a ...