An international team of researchers has made a ground-breaking discovery that opens the door to developments in neuromorphic computing and ultrahigh-density data storage: room-temperature ...

Controlling matter at the atomic level has taken a major step forward, thanks to groundbreaking nanotechnology research by an ...

Nanotechnology advances metal casting by integrating nanoparticles, improving mechanical properties and addressing challenges ...

This study evaluates silver-coated laser-induced graphene strain sensors, revealing enhanced sensitivity and reliability for ...

Researchers from Ludwig Maximilian University of Munich presented a study in Nano Letters on the molecular organization of ...

The thermoelectric effect, or Seebeck effect, refers to the direct conversion of a temperature difference between two electrical conductors or semiconductors into an electrical voltage. When the sides ...

In this interview, Mervyn Miles, professor emeritus at the University of Bristol speaks about the history and technology behind Atomic Force Microscopy (AFM) and Scanning Probe Microscopy (SPM). In ...

Explore the extraordinary world of graphene, the first-ever two-dimensional material, discovered at The University of Manchester. As the thinnest yet strongest material known, graphene is transparent, ...

Graphene, a material with exceptional strength, flexibility, and conductivity, is driving innovation across various fields. Discover its applications, from water purification and gas separation to ...