Unlike traditional microscopes that use light or lenses, DNA microscopy creates images by calculating interactions among molecules.

The technique can now be used to image viscoelastic properties of biological samples much more quickly and safely, at high ...

New research suggests “microlightning” exchanges among water droplets in Earth’s early atmosphere may have sparked the ...

Though phytoplankton give the Hudson River a potentially unappealing greenish color, their presence indicates a healthy ...

This specialized golf ball looks and feels smooth, but a close examination under a standard light microscope reveals tiny ...

Our world offers several exceptional scenes and sceneries in varied shapes and forms. From the beauty of the Himalayas to the ...

A new study has provided precise atomic data that shed light on the impact of charged ions from coronal mass ejections (CMEs) ...

What if you could take a picture of every gene inside a living organism—not with light, but with DNA itself? Scientists at ...

Cells constantly shift and transform, triggering the complex choreography that shapes living organisms. Whether dividing into new cells or sculpting an embryo, these tiny movements rely on chemical ...

Engineered starfish oocytes shape-shift in response to light, may enable the design of synthetic, light-activated cells for ...

This specialized golf ball looks and feels smooth, but a close examination under a standard light microscope reveals tiny crystals of absorbent silica and polymers dotting the surface.

A super-resolution microscopy technique offers an unparalleled glimpse into how monoclonal antibodies bind to their targets ...