(Nanowerk News) Interaction between machines and humans is paramount to the development of the new technologies of the metaverse, which are designed to augment the human experience through cloud ...

For more than a decade, a fundamental mystery has surrounded graphene—the one-atom-thick "wonder material" known for its exceptional strength, conductivity, and transparency. Despite its seemingly ...

The graphene layer on the sensors they developed is less than a nanometer thick. “By using cutting-edge graphene material, combined with silicon, we were able to overcome issues of corrosion, ...

In the last five years, the discovery and significant interest in twisted bilayer graphene gave rise to an entirely new subfield in advanced materials science and quantum physics: twistronics. In a ...

Rice University scientists are using machine-learning techniques to streamline the process of synthesizing graphene from waste through flash Joule heating. The process discovered two years ago by the ...

Solar power has attracted humanity for decades, and as climate change concerns mount, we are turning to this plentiful resource for a future that is more environmentally friendly. Solar energy ...

How graphene-based e-tattoos can be used for bioimpedance measurements. How these measurements translate to blood-pressure readings. The results of the system based on e-tattoos, electronics and ...

This study introduces a compact, high-performance multiple-input multiple-output (MIMO) antenna engineered for 6G terahertz (THz) communication systems. The antenna is implemented on a polyimide ...

Machine-learning molecular simulations show pristine graphene is intrinsically hydrophobic and that water trapped beneath the sheet caused earlier conflicting results. (Nanowerk News) Graphene, the ...

Scientists are using machine learning techniques to streamline the process of synthesizing graphene from waste through flash Joule heating. Rice University scientists are using machine-learning ...

a) This bar chart shows the "energy cost" for a single water molecule to sneak underneath graphene. For a single-atom-thin sheet (monolayer), the energy is negative, meaning water naturally prefers to ...