Nikon Biostation is an inverted life cell imaging microscope enclosed in an incubator. The stage and objective are fully enclosed in temperature modulated box resulting in no focus drift during imaging. The cells are kept at 37C and supplemented with 5% CO2 throughout the entire experiment. The imaging chamber can hold 35mm glass or plastic bottom dishes of 0.17um thickness. The Biostation is an ideal microscope for imaging cell migrations, wound healing, cell division and cell growth and adherence.
The Bruker BioScope Catalyst™ Atomic Force Microscope (AFM) system can provide high resolution (nm) topographical data of biological systems such as living cells. The instrument works in tandem with an inverted optical microscope, which is also capable of fluorescence microscopy and has a heated stage for live cell imaging.
The Nikon A1 intravital microscope is an inverted confocal system designed for fast stable imaging over time. With two scanners, a standard Galvano scanner for achieving images with a high signal-to-noise ratio and a resonant scanner for when speed is of upmost importance, this system is suitable for a wide range of experiments. Equipped with 4 dedicated PMTs for reflective/fluorescence imaging, 2 of which as high efficiency GaAsP detectors, and a hardware solution (Perfect Focus System) for preventing drift during imaging this system yields both high sensitiy with speed and stability.