Computational microscopy is vital in biomedicine and materials science. Traditional methods struggle with optical aberrations ...

Cellular metabolism plays a critical role in various physiological and pathological processes. High resolution imaging of ...

A new "self-driving" microscope developed by UT Southwestern Medical Center researchers solves two fundamental challenges ...

Biomolecular condensates are shifting blobs in our cells that organize cellular matter. They are distinct molecular ...

Traditional microscopy often relies on labeling samples with dyes, but this process is costly and time-consuming. To overcome ...

Researchers shed new light on G-quadruplexes, a type of secondary DNA structure that has attracted attention as a potential therapeutic target in cancer.

A new EMBL innovation dramatically improves Brillouin microscopy, enabling faster, more efficient 3D imaging of ...

Imagine a microscopic locomotive moving back and forth along a track, propelling itself without any external force. At the molecular level, this concept forms the foundation of molecular motors -- ...

The global photoacoustic microscopy market is on a strong growth trajectory, with projections indicating a significant rise in market value. By 2024, the market is expected to reach USD 120 billion, ...

Biologists have discovered a low-cost way to more easily study the detailed makeup of plant cells. The ultimate goal is to ...

Conventional microscopes are limited in their resolution to 200 nm at the lowest. However, many interesting processes occur ...