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

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

Transforming oil spill response, nanosponges provide an efficient, eco-friendly solution for oil absorption, outperforming ...

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

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

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

Radiation-resistant nanomaterials enhance durability in nuclear systems by mitigating damage, improving structural integrity, ...

Breakthrough in light emission control from nanoscale sources in 2D materials could enhance ultra-high-resolution displays and quantum computing technologies.

A novel acoustofluidics method enhances intracellular nanoparticle delivery, improving biophysical research and therapeutic ...

Innovative research shows how nanoconfinement transforms cluster-based compounds into a 1D Ising model structure, paving the way for advanced n.

A study explores how cationic fusogenic liposomes temporarily modify membrane properties during fusion, offering new insights ...

Soft lithography is a fabrication technique used to create micro- and nanoscale patterns. Developed in the early 1990s by George M. Whitesides and colleagues, it simplifies pattern formation by using ...