Researchers, reporting in ACS Nano, developed a 3D-printable bioactive glass that functions effectively as a bone replacement material.

The rapid growth of nanomedical trials calls for a unified lexicon to support clinical translation and foster collaboration among researchers and clinicians.

Innovative covalent organic nanosheets show enhanced stability and tunability, paving the way for high-performance anode materials in sodium-ion batteries.

Researchers developed a single-step AACVD method for nitrogen-doped carbon nanotubes on copper, optimizing synthesis for improved electrochemical properties.

A new study led by researchers at QIMR Berghofer, Flinders University, and the University of Bergen has found a way to boost vinegar's bacterial-killing properties.

Researchers at the Department of Energy’s Pacific Northwest National Laboratory have announced a new discovery.

Quantum dots play a pivotal role in optoelectronics, enabling innovative applications through their tunable band gaps and superior opto-electronic properties.

An Australian research team has achieved an advanced materials breakthrough that opens the door to a new generation of nanodrug applications.

Genizer designs its equipment to support customers at every stage of their journey—from early research in academic labs to full-scale manufacturing. That’s why its high-pressure homogenization systems ...

Conductive additives are essential materials in the construction of Li-ion cells, and developments within the conductive additive space will be greatly influential in achieving manufacturers’ aims of ...

Similarly, PiF-IR (photo-induced force infrared) spectroscopy is one of the few options for obtaining IR absorption spectra from monolayer materials. Beyond the technicalities, the real value of an ...