This whitepaper explores how integrated live-cell confocal imaging enables precise quantification, real-time kinetic insight, and reproducible analysis across advanced 3D workflows.

Curiosis has a line of Automated Live Cell Imaging Systems called the Celloger series. Using specialized microscopes and labeling procedures, live cell imaging enables real-time observation and ...

Live cell imaging is a technique for studying living cells over time utilizing images captured by time-lapse microscopy. Celloger. Image Credit: Scintica Instrumentation Inc. Real-time imaging of ...

Scientists captured clear images of biomolecules in single live cells in water for the first time using infrared (IR) transmission imaging. The IR technique enables researchers to measure the mass of ...

Scientists have developed a groundbreaking cryo-optical microscopy technique that freezes living cells mid-action, capturing ultra-detailed snapshots of fast biological processes. By rapidly ...

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 ...

Erasable electric fields written by laser light onto crystal surfaces can trap, align, and release living cells without ...

Researchers at the National Science Foundation (NSF) are studying the potential to harness the computer skills of tiny groups of biological cells known as organoids. Brains, whether human or animal, ...

Organoids have transformed biomedical research by giving scientists miniature versions of human organs to study in the lab.

An image of biomolecules, such as nucleic acids, lipids and proteins, in live cells using an imaging technique called infrared (IR) transmission microscopy. To accelerate biotechnology innovations, ...