The OM System TG-7 has a new version made for industrial applications, including microscopes ...

Electron microscopes have been helping us see what the things around us are made of for decades. These microscopes use a beam of electrons to illuminate extremely small structures, but they can't ...

Researchers from Regensburg and Birmingham have overcome a fundamental limitation of optical microscopy. With the help of ...

Collaboration between deep learning experts and microscopy experts leads to an significantly improved data-intensive light-field microscopy method by using AI and ground-truthing it with light-sheet ...

X-ray vision was state-of-the-art when Superman launched his career in the 1930s. But if the superhero wants to keep pace with the modern world of nanotechnology, he should upgrade to electron vision, ...

Confocal laser scanning microscopes (CLSMs) use a laser to generate a digital image of a given sample. Confocal microscopes work in tandem with ‘fluorescent tagging’, which involves the alteration of ...

China’s National Medical Products Administration (NMPA) has granted regulatory approval for 2 next-generation ophthalmic ...

A new microscope can be printed on a flat piece of paper and assembled with a few extra components in less than 10 minutes. All the parts to make it cost less than a dollar, according to Stanford ...

For those of you who haven’t visited the websites of Carl Zeiss or Nikon lately, fluorescent microscopes are expensive. Typically, microscopes of the sort required by pathologists to make diagnosis ...

A 25-year-old electron microscope can make films of events lasting just trillionths of a second, thanks to a simple retrofit. Transmission electron microscopes (TEMs) are standard kit for imaging ...

A team of researchers in Japan has engineered a mirror for X-rays that can be flexibly shaped, resulting in remarkable precision at the atomic level and increased stability. The new technology ...