Scientists at Lawrence Berkeley National Laboratory made a big leap in their research into all things small. Within the past few months, scientists there began using what they say is the world’s most ...

Conceptual illustration of the bidirectional quantitative scattering microscope, which detects both forward and backward scattered light from cells. This dual detection enables visualization of ...

Researchers have built an upgraded quantum microscope that can map momentum-resolved tunneling spectra in graphene at room ...

An international team of researchers built a highly sensitive quantum microscope and used it to directly observe, for the ...

The meteoric rise of cryo-electron microscopy from an obscure imaging technique to a powerhouse for determining biomolecular structures is transforming our understanding of biology. Our knowledge of ...

Jacobs School researchers have shown how an electron diffraction technique can quickly and efficiently create high-resolution ...

A new hybrid microscope for the first time allows scientists to simultaneously image the full 3D orientation and position of an ensemble of molecules, such as labeled proteins inside cells. (Nanowerk ...

Princeton scientists are peering into the smallest corners of matter using an exceptional collection of sophisticated microscopes — some so big they fill a room. These remarkable instruments have ...

The scanning-electron microscope was used to examine the cortical surface of 123 species of lichens in 12 genera of the lichen family Parmeliaceae. Two general types of cortex were found, one ...

Scientists developed a new device capable of directly observing hidden electron interactions in graphene at room temperature.