A new holographic camera technology can transform standard 2D cameras in smartphones, laptops, and cars into immersive, high-performance 3D cameras​.

Rapid, localized heat management is essential for electronic devices and could have applications ranging from wearable materials to burn treatment. While so-called thermoelectric materials convert ...

Scientists in India have simulated a novel perovskite solar cell that combinies a Dion-Jacobson 2D layer with a 3D halide ...

SEMVision™ H20 enables better and faster analysis of nanoscale defects in leading-edge chipsSecond-generation “cold field emission” technology ...

The limitations of two-dimensional (2D) displays in representing the depth of the three-dimensional (3D) world have prompted ...

The study identifies monolayer amorphous carbon (MAC) as a breakthrough in material science, exhibiting superior toughness and potential for 2D applications.

Quantum technology struggles with scaling up, as the special properties of quantum materials typically vanish in larger ...

Like graphene, MAC is also a 2D or single atom-thick material. But unlike graphene where atoms are arranged in an ordered ⎯ ...

Researchers have found that a two-dimensional carbon material is tougher than graphene and resists cracking—even the strongest crack under pressure, a problem materials scientists have long been ...

Osaka University researchers have developed ultrathin vanadium dioxide films on flexible substrates, maintaining electrical ...

Discover the possibilities of twisted bilayer graphene as a replacement for silicon in integrated circuits and it's potential.

With their spontaneous electrical polarisations switchable by an external electric field, ferroelectrics have wide-ranging ...