No modern laboratory is complete without at least one basic microscope, an essential tool for biologists in medical research. Transmitted light methods have largely been replaced by fluorescent ...

For the first time, scientists have been able to watch the flu virus live as it infects human airway cells. They developed a ...

Researchers seeking to explore live-cell dynamics can now turn to rapid, precise, and gentle technologies that address conventional microscopy challenges such as limited temporal resolution and ...

Optical diffraction tomography (ODT) has long been recognized for its potential in non-invasive, label-free imaging of live biological cells. However, a major challenge arises when ODT is applied to ...

Researchers have developed a DF-FPDT imaging system where, (a) is the schematic of the DF-FPDT system based on a commercial microscope integrated with a programmable angular LED array for illumination ...

A new in-plate, zero-disruption design enables reproducible organoid culture, downstream processing, and high-resolution imaging in a single 3D cell culture plate MONMOUTH JUNCTION, N.J., Feb. 9, 2026 ...

Super-resolution microscopy has promoted the development of cell biology, but imaging proteins with low copy numbers in cellular structures remains challenging. The limited number of designated ...

Tunable red to green emissions in upconversion nanoparticles allow precise identification of single particles, enabling accurate, long-term multicolor tracking in complex live cell environments.

Single-cell functional analysis enables scientists to examine the unique characteristics of each cell within organs, tissues, and cell cultures. Unlike bulk-cell analysis, single-cell analysis allows ...

The VitroPrime™ 3D Culture and Imaging Plate was engineered to overcome these challenges by enabling a true end-to-end 3D workflow—from sample seeding and long-term culture to downstream processing ...