Whether working with fixed samples or imaging live cells, discovery is challenging. Each system in the IXplore series is tailored to fit a specific research application in order to help scientists more efficiently accomplish their goals. IXplore systems provide accurate, reproducible images, and data, and can be adapted as experimental needs evolve or become increasingly complex over time.
Standard
High-quality imaging
Pro
Automated imaging for accurate and efficient experiments
Live
Precise live cell imaging
TIRF
Excellent multicolor TIRF imaging
Spin
Confocal imaging of rapid cell dynamics
SpinSR
Confocal super resolution for all live cell samples
IXplore Standard
High-Quality Imaging
Repeatability and accuracy for standard imaging tasks
Benefit from the same optical capabilities found in high-end IXplore systems
Easily upgrade to encoded functionality to boost reproducibility of experiments
Obtain high-quality images, even with standard cell culture vessels, using dedicated objectives
Excellent simultaneous multicolor TIRF for investigation of membrane dynamics and single molecule detection
Exact colocalization of up to four markers thanks to individual penetration depth control
Take advantage of Olympus’ remarkable TIRF objective with the world's highest NA of 1.7*
Intuitive set-up of complex experiments with Graphical Experiment Manager (GEM)
*As of November 2018; according to Olympus research.
*Image: Courtesy of Dr. Michael W. Davidson, The Florida State University
*Movie: FoLu mEmerald LifeAct mCherry Zyxin. Courtesy of Dr. Michael W. Davidson, The Florida State University
Confocal Super Resolution for All Live Cell Samples
Super resolution down to 120nm XY resolution
Prolonged cell viability in confocal time-lapse imaging due to less phototoxicity and bleaching
Switch between widefield, confocal and super-resolution with one click
Accurate 3D reconstruction with Olympus silicone oil immersion objectives
*Image: Fluorescent staining of microtubules (red: Alexa 594) and actin (green: Alexa 488) in growth cone of NG108 cells. Image courtesy of: Dr.Kaoru Katoh , Biomedical Research Institute, National Institute of Advanced Industrial Sciences and Technology (AIST)
*This product is not available in some areas
