Discover how electron microscopy advances plant and microbial research with expert insights from the John Innes Centre’s ...

Researchers have discovered how to design and place single-photon sources at the atomic scale inside ultrathin 2D materials, ...

It’s relatively easy to understand how optical microscopes work at low magnifications: one lens magnifies an image, the next ...

Leiden researchers can now visualize the connections between brain cells. Their microscopy technique could significantly advance the human quest to understand brain functions. The study is published ...

The discovery challenges basic assumptions about how metals solidify In A Nutshell Liquid metal contains stationary atoms: ...

Viruses are typically described as tiny, perfectly geometric shells that pack genetic material with mathematical precision, ...

Scientists have uncovered that some atoms in liquids don't move at all—even at extreme temperatures—and these anchored atoms dramatically alter the way materials freeze. Using advanced electron ...

Viruses are typically described as tiny, perfectly geometric shells that pack genetic material with mathematical precision, ...

The tiny pantheon known as the Asgard archaea bear traits that hint at how plants, animals and fungi emerged on Earth.

Scientists have discovered a strange tubular structure inside Profftella, a symbiotic bacterium in the Asian citrus psyllid. These long, helical tubes, filled with ribosomes, show a complexity not ...

Skoltech scientists conducted a study that advances research on future batteries. Their paper, published in Small, sheds ...

UCLA scientists have characterized the structure and function of a key survival protein in breast cancer cells that helps ...