This whitepaper explores how integrated live-cell confocal imaging enables precise quantification, real-time kinetic insight, ...

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 Transmitted light methods have largely been replaced by fluorescent ...

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 ...

Structured illumination microscopy (SIM) is the most preferable system for live-cell super-resolution imaging. It enables the observation of intricate subcellular dynamics. However, conventional SIM ...

Explore advances in protein imaging techniques and spatial proteomics. Learn how modern imaging tools reveal protein dynamics and organization in cells.

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 ...

Biologics and cell therapy programs are under increasing pressure to deliver high‑quality cell lines and physiologically meaningful 3D models—faster, more consistently, and with full traceability. Yet ...

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 ...