The rapid evolution of microscopy techniques has transformed our ability to visualise biological structures and processes at unprecedented resolutions. Advances in live‐cell imaging, super‐resolution ...

Microscopy continues to transform the life sciences. Here are five recent breakthroughs made possible by the technique.

Global health is changing as a result of developments in life sciences research and technology, and these advancements have the potential to offer innovative and improved approaches to promote a ...

Thanks to a recent study by researchers at IOCB Prague, it is now possible to monitor processes in living cells more ...

In a recent article published in Nature Communications, researchers introduced NanoPlex, a novel strategy designed to overcome limitations in fluorescence microscopy ...

Researchers at Istituto Italiano di Tecnologia (IIT-Italian Institute of Technology) have developed an innovative microscopy ...

This seminar provides an overview of fluorescence microscopy in cancer research and other cell-based applications in the biosciences discovery workflow. In comparison with phase contrast and ...

Two-photon microscopy is a type of fluorescence microscopy that, rather than exciting the sample with a single photon, makes use of multiple photons. The advantage over more traditional one-photon ...

Medicine has advanced dramatically during the last century. But when it comes to getting biopsy results, very little has changed. Consider, for example, what happens when a patient comes in to have a ...

CCD (Charge-coupled Devices) are a technology used in optical microscopy to record images of organic and inorganic structures in fine detail. This article will discuss these devices and why they are ...

The copper target was operated at voltages of 11 kV, 12 kV, 13 kV, and 14 kV for the electron source, and a 50 kV configuration using a molybdenum target was used as a representative example for the ...