The University of Birmingham's technique allows for the swift production of uniform nanostructures, crucial for advancements in drug delivery and catalysis.

The successful realization of a Heisenberg model with nanographenes by Empa researchers enhances understanding of quantum effects and potential applications.

A novel atomic-level manufacturing method, vdW squeezing, allows for the creation of 2D metals at the angstrom thickness ...

ATLANT 3D, whose atomic-scale manufacturing technology enables precise development of advanced materials and devices for ...

Researchers developed a high-resolution 3D printing method for calcium phosphate using bone prenucleation clusters, advancing ...

Recent findings reveal phosphorene nanoribbons exhibit intrinsic magnetic and semiconducting properties, paving the way for ...

Anton Paar is proud to announce the release of Lovis 2001, a state-of-the-art rolling-ball viscometer, designed for ...

Liquid nanofoam developed by MSU researchers offers innovative protection against blunt force injuries, boosting survival ...

Delmic and Digital Surf are proud to bring to market new CL Workspace software powered by Mountains® technology, an ...

KTH's breakthrough in graphene oxide synthesis from carbon fibers could transform nanomaterial production, addressing ...

This study reveals tungsten carbide-carbon nanofoam composites as efficient electrocatalysts for hydrogen evolution, ...

The nano-spring coating technique developed by Professor Park's team enhances EV battery durability and energy density, ...