These issues often stem from material limitations, including poor ion transport, unstable electrode interfaces, and dendrite formation in metal-based anodes. Overcoming these barriers requires ...

Ultra-precision machining and surface engineering represent critical disciplines in modern manufacturing, enabling the fabrication of components with nanometre-level tolerances and superior surface ...

Nanomaterials have emerged as pivotal elements in advancing water treatment techniques and surface engineering, offering unprecedented functionalities through their unique physicochemical properties.

A marking that looks correct under inspection can still fail in actual use.In high-precision manufacturing, this happens more ...

Surface/interface engineering can compensate for defects, adjust the bandgap, and develop novel quantum structures, which consequently optimize photovoltaic units and revolutionize optoelectronic ...

A tribological interface arises where parts come into contact and undergo relative motion. These interfaces entail five key components: materials, lubricants, surfaces featuring roughness and/or ...

A recent study carried out by researchers from EHU, the Materials Physics Center, nanoGUNE, and DIPC introduces a novel approach to solar energy conversion and spintronics. The work tackles a ...

Harnessing surface engineering strategies to functionalize nucleic acid-lipid nanoparticles (LNPs) for improved performance has been a hot research topic since the approval of the first siRNA drug, ...

Being able to quantify a surface finish is both a complex and necessary task. While surface topography relates to a three-dimensional property, the most accepted surface measurement parameter is ...