Neutron scattering is a powerful analytical technique that utilizes neutrons to probe the structure, dynamics, and properties of materials at the atomic and nanoscale level. It provides unique ...

XRD works by directing X-rays onto a crystalline material and analyzing the angles and intensities of the diffracted beams. The atomic planes within the crystal act as a three-dimensional grating, ...

Photoelectron spectroscopy (PES) is a surface-sensitive analytical technique that provides information about the elemental composition, chemical state, and electronic structure of a material's surface ...

Enzymatic biofuel cells (EBFCs), which generate electricity through electrochemical reactions between metabolites and O2/air, ...

Carbon dot nanozymes combine the catalytic power of enzymes with the stability and versatility of nanomaterials, opening new frontiers in medicine and environmental monitoring. By tailoring their ...

The field of multifunctional nanomaterials stands at the forefront of Cancer Therapy and Tissue Regeneration. Diseases such as cancer and tissue/organ failure are leading causes of mortality worldwide ...

Nanomaterials, due to their unique properties and widespread use, are increasingly found in various environmental compartments, including soil. Their small ...

Unlike optical microscopy, SEM does not rely on light waves but instead uses a beam of electrons to interact with materials, enabling magnifications up to 300,000× and resolutions approaching 1 nm. 1 ...