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 ...

A recent study in Scientific Reports presented a graphene-based metamaterial as a solar absorber. The structure consisted of three layers: aluminum (Al) as the resonator, titanium nitride (TiN) as the ...

The schematic diagram of the activated-carbon functionalized graphene sensor. (b) The comparative plot of the XGBoost, KNN, and Naïve Bayes models performance. Credit: Hiroshi Mizuta from JAIST. The ...

Predicting how continuous microscopic strains alter local bond lengths and hopping energies has required computationally taxing physics simulations, frustrating attempts to efficiently scan the ...

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 ...

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 ...