From overcoming classical optical limits to tracking single proteins in real time, super-resolution imaging continues to ...
Unlike almost every other kind of microscope, atomic-force microscopes (AFMs) don’t use any kind of optical beam to image ...
A mild oxalic-acid-based hydrometallurgical process enables efficient indium recovery from indium tin oxide in solar cell waste while simultaneously releasing silver grids. The approach achieves ...
Accelerated aging tests reveal spatially non-uniform degradation in perovskite solar cells, enhancing understanding of stability and performance under stress.
A depth-compensated diffractive optical element photoacoustic microscope enables more uniform photoacoustic imaging across tissue depths.
MOF thin films, as porous materials, play a key role in many potential applications. Researchers at TU Graz have now ...
A research group led by Assistant Professor Takafumi Tomita and Professor Kenji Ohmori at the Institute for Molecular Science, National Institutes of Natural Sciences, has developed a new microscopy ...
Researchers can see in 3D how signaling proteins cluster on the surface of endosomes (gray) using a new microscopy tool kit. Credit: ACS Nano Biologists depend on microscopes to see what their cell ...
As of early 2026, the global AFM market has expanded to approximately USD 542 million, up from USD 514 million in 2024, reflecting increased demand from semiconductor fabrication, nanotechnology ...
MIT physicists have built a powerful new microscope that uses terahertz light to uncover hidden quantum motions inside superconductors. By compressing this normally unwieldy light into a tiny region, ...
Archival storage poses lots of challenges. We want media that is extremely dense and stable for centuries or more, and, ideally, doesn’t consume any energy when not being accessed. Lots of ideas have ...