Tapered silicon nanopores with SiO2 surfaces detect individual proteins faster and more clearly by focusing the electric ...

Zirconium carbide nanoparticles trigger crystal-structure changes that make brittle ceramic matrix composites stronger and ...

Researchers have developed a new way to create moire patterns - atomic-scale structures that can give materials unusual ...

A new method of distinguishing chiral molecules could eventually detect distortions inside quantum and soft materials, find ...

A vacuum channel transistor controls electrons at the cathode to suppress gate leakage, letting it work inside amplifiers and ...

Researchers developed a novel approach to treating spinal cord injuries: controllable microrobots deliver stem cells directly ...

Scientists have developed the first fluorescent nanosensor capable of detecting indole-3-propionic acid (IPA) - a metabolite ...

Astronomers have found the strongest evidence yet that some planets outside our Solar System may have magnetic fields.

Nanoparticle delivery vehicle targets lung cancer drugs to the lungs, boosting bioavailability 30-fold while reducing ...

Researchers have developed an AI-supported computer model of a mouse body that uses machine learning to predict how different nanomaterials are distributed in the mouse organism.

Atomic-scale MoOCl2 bends light with record strength, enabling ultrathin optics for smart contact lenses, AR glasses, and invisible wearables.

An edible biohybrid makes swallowed nanoplastics clump inside the gut, reducing intestinal penetration and helping the body ...