Large-scale quantum computers will need far more than better qubits—they will need a practical way to control and read them ...

Pushing optical imaging below the diffraction limit usually requires complicated illumination schemes and still suffers from weak, unstable signals ...

Modern nanofluidic chips can mimic complex chemical and biological environments, but their full potential often depends on ...

Researchers developed a soft optical bending sensor that enables humanoid robotic hands to perceive finger posture across multiple axes during dexterous tasks.

A new soft sensing system could help humanoid robots move their hands with far greater precision in delicate, human-like ...

The University of Tennessee at Chattanooga has announced the launch of the Nanoengineering Center, a new research center housed within the UTC Research Institute. The center, which began as a Center ...

An international research team led by scientists from Skoltech has developed a method to position molecules on the surface of ...

A new compact chip holder combines heating, cooling, electrode control, and real-time spectroscopy for studying nanoscale ...

Designing better catalysts often means controlling where reactions happen and how fast molecules can move. In this study, researchers developed a ...

TitletownTech leads financing to accelerate commercial pilots into gigawatt-hour production Manufacturing breakthroughs ...

You may not be able to hear it, but all solid materials make a sound. In fact, atoms—bound in lattices of chemical bonds—are ...

Critical minerals such as those used in lithium-ion batteries come in limited supply and are concentrated in specific regions ...