Imaging-based single-cell physiological profiling holds great potential for uncovering fundamental bacterial cold shock response (CSR) mechanisms, but its application is impeded by severe focus drift ...

Atomic force microscopy reveals three distinct dynamic states in individual polymer chain segments on surfaces, challenging ...

Using atomic force microscopy, the researchers measured nanometric changes in height along different segments of a single polymer molecule. Through careful mathematical processing of these ...

QuTEM and Boston University collaborate to provide localized, high-speed AAV analysis for North American gene therapy ...

In organelle imaging, segmentation aims to accurately delineate pixels or voxels corresponding to target organelles from background, noise, and other cellular structures in microscopy images, thereby ...

This review outlines the potential of smart microscopy to transform biological imaging through adaptive systems that optimize data collection and image quality.

Several essential factors influence how efficiently cleanliness analysis is carried out in automotive and electronics manufacturing.

A new tool developed by scientists allows real-time monitoring of plant stomata, offering new insights into water-saving ...

By applying the Kerr effect, Kerr microscopy facilitates the analysis of magnetic domains in steel alloys, supporting ...

By combining high-resolution genomic data with AI, researchers are uncovering the regulatory logic plants use to sense and survive environmental stress.

Researchers at Cornell University have developed a powerful imaging technique that reveals atomic scale defects inside computer chips for the first time. Using an advanced electron microscopy method, ...