Scientists successfully control the direction of current in a superconductor, creating a superconducting diode.

Researchers have developed a method to fabricate complex oriented tissues with multiple directionality using fluidic devices and 3D-printing.

International team calculates observable quantities such as scattering angle and emitted energy with unrivalled precision.

A plant-based peptide therapy forms nanofibers that trap toxic proteins linked to neurodegeneration, preventing them from ...

The digital laboratory (dLab) system fully automates the material synthesis and structural, physical property evaluation of ...

Researchers have developed a new technology that allows accurate visualization of the different parts that make up a single ...

Dental floss embedded with saliva sensors detects cortisol accurately in real-time, providing a practical method for ...

Aircraft engines emit nanoparticles, including newly identified onion-like structures. Research explores their formation, ...

Researchers demonstrate a particular 3D ink printing method for so-called smart fabrics that continues to perform well after ...

Atomic-scale laser treatment enhances laser-induced graphene for efficient electrothermal heating and water purification ...

Researchers developed a new workflow for designing enzymes from scratch, paving the way toward more efficient, powerful and ...

Turbulence shapes plasma, stars, and magnetic fields, but remains poorly understood. New large-scale simulations reveal it ...