Nikon Ti2-E Live-cell Imaging System

Major Functions / Key Features

The Nikon Eclipse Ti2-E live-cell imaging system is a fully motorized, inverted fluorescence microscope with a large field-of-view and state-of-the-art features that make it ideal for live-cell and large-tissue tile imaging. Equipped with advanced technology, this system is designed to meet the needs of cutting-edge research in various scientific fields.

With its large field-of-view and high-resolution imaging capabilities, the Nikon Eclipse Ti2-E live-cell imaging system provides outstanding image quality for dynamic imaging studies and wide-area imaging tasks. This system has been designed with an array of advanced features, such as motorized focus and sample-positioning stages, which not only simplify imaging workflows but also improve imaging acquisition speed and accuracy.

Moreover, the Nikon Eclipse Ti2-E live-cell imaging system has been optimized for live-cell imaging studies in diverse applications, including cell biology, tissue engineering, developmental biology, neuroscience, and drug discovery, among others. Its versatility enables researchers to perform time-lapse imaging of cellular events, track cell movement, and study intracellular dynamics with pinpoint accuracy.

The Nikon Eclipse Ti2-E Live-cell Fluorescence Imaging System is a cutting-edge microscope that features state-of-the-art components for high-resolution, large field-of-view imaging. Its fly-eye lens design ensures uniform illumination across the entire 25 mm field-of-view, while its high-precision motorized stage with encoder adaptive auto-focusing system (Nikon Perfect Focus System) provides accurate positioning and sharp, in-focus images.

The system also includes tile scanning and image stitching capabilities to produce high-resolution overview images of large tissue sections, as well as an environmental chamber with precise temperature and CO2 concentration control (Tokai Hit STX series) for live-cell imaging studies. Additionally, the motorised condenser objective and fluorescence filter turrets allow for a variety of imaging and contrasting modes, including bright-field, differential interference contrast (DIC), and wide-field fluorescence.