By controlling the structural architecture of copper at the nanoscale, researchers could precisely shape the copper into nanoclusters under 2 nm in diameter, thereby enhancing the efficiency of its ...

Applied to a polycrystalline catalyst, the technique allows the visualisation of crystal grains, grain boundaries and defects ...

New technique guides liquid metal through microscopic channels to create flexible electronic circuits, offering simplified ...

With this method, the disease's molecular patterns are detectable with near-perfect accuracy in just a few hours.

Researchers have uncovered a new phenomenon in graphene research, observing growth-induced self-organized ABA and ABC ...

Researchers have developed an artificial intelligence (AI) framework which autonomously discovers new experimental designs in ...

Such nanolasers have been researched and developed for some time. However, KTU scientists’ version is unique in terms of its ...

These small particles are reminiscent of paper flowers or desert roses. Physicians can use them to guide medicines to a ...

Researchers unveil a method to precisely create four-stranded berta-sheets via metalpeptide coordination, overcoming ...

Nanostructured two-dimensional gold monolayers offer possibilities in catalysis, electronics, and nanotechnology.

Helical structures are ubiquitous across biology, from the double-stranded helix of DNA to how heart muscle cells spiral in a ...

Researchers reveal how polaritons, hybrid light-matter particles, can be controlled at room temperature using electric fields ...