Experience exceptional speed, clarity, and reliability with the IXplore™ IX85 Pro.
With an industry-leading 26.5mm field number (FN), combined with new advanced imaging tools that ensure clear, accurate results, the IXplore IX85 Pro system empowers you to capture more data and uncover insights faster than ever before.
Comparison of how many cells you can acquire in different FN.
Expand Your View, Enhance Your Vision
See and capture more—and reduce your acquisition times—with an unmatched field of view (FOV) in the industry and an array of advanced end-to-end imaging features that set a new standard in clarity and precision, including groundbreaking new objective technology
Unmatched 26.5mm FOV
View more of your sample in each image with an industry-leading field number (FN) of 26.5mm on two integrated ports. Cover larger areas in fewer images, get more data in each image, minimize the need for image stitching, and speed up your workflows.
Edge-to-Edge Clarity Precision
Collect large, uniform images with higher-power LED illumination and built-in optics that provide you with consistent lighting across the entire FOV—essential for large-area imaging. Count on edge-to-edge precision with proprietary distortion correction technology and expanded flatness. Automatically create seamless, high-quality stitched images with intelligent shading correction.
2x3 stitched DIC image of cultured NIH 3T3 cells.
Left: Raw stitching, Right: Intelligent Shading Correction applied stitching. Sample provided by EnCor Biotechnology Inc.
Brain slice stitching with Intelligent Shading Correction
Cyan: nuclei, Green: microtubule associated proteins (MAPs), Magenta: Myelin Basic Protein (MBP)
Sample provided by EnCor Biotechnology Inc.
Left: Original stitching, Right: Intelligent Shading Correction applied stiching
A New Standard in Image Depth Objective Usability with Our New Multi-Immersion Objective
Introducing our new multi-immersion objective (LUPLAPO25XS) with groundbreaking new immersion technology. See deeper into your samples and reveal structures that were previously out of reach with a high NA and long working distance.
With silicone gel pad technology, you can get the quality of silicone immersion with the useability of a dry objective. There’s no need to wipe or replace oil as you navigate across the sample, there’s no risk of your immersion medium drying out during timelapse, and you can painlessly switch between air and immersion objectives.
The new LUPLAPO25XS enhances workflows for organoids, 3D cell culture, well-plates, and a wide range of applications, with crystal-clear imaging and no compromise in usability.
XYZ image comparison between Left: LUPLAPO25XS (Silicone gel) and Right: UPLXAPO20X (Dry)
Cleared HeLa*1 cell spheroid (Cyan: Nuclei, Magenta: Microtubules) taken by IX85-Spin
Exceptional Objective Performance
Unlock the full potential of our X Line™ high-performance objectives and silicone immersion objectives and get exceptional performance from our high-resolution/NA objectives together with our A Line applications-driven objectives.
With the power of the IXplore IX85 Pro, now you can combine a wider FOV, expanded flatness, and higher NA to create brighter, higher-resolution images with greater uniformity. Take full advantage of this power to obtain excellent quality with minimal phototoxicity and/or photobleaching, and achieve exceptional color reproducibility during brightfield and multicolor fluorescence imaging.
Stunning 3D Images
Use TruSight technology to create 3D images with confocal-like sharpness at the speed of a widefield microscope, and explore 3D samples in real time with advanced software solutions that help you see more and see it faster.
Optimize Your Workflow,
Accelerate New Discoveries
No matter the size of your lab, make getting your best image simpler with a new automated objective correction system, customizable interfaces, efficient task management software, and advanced real-time image processing and analysis.
New Automatic Correction Collar
Our new correction collar automatically fine-tunes your objective settings and optimizes image quality by reducing spherical aberrations caused by variations in cover glass thickness. Create sharper, more detailed images and eliminate time-consuming manual adjustments with the simple click of a button. Compatible with over 18 different objectives to meet your research needs.
Left: Correction Collar position adjusted by auto, Right: Correction Collar position not adjusted
Advanced Real-Time Image Acquisition Analysis
When combined with industry-leading FN and FOV, the IXplore IX85’s advanced imaging tools provide you with consistent, accurate, crystal-clear results. Quickly locate samples and acquire high-magnification images. Automatically analyze key features in your images. Easily manage multidimensional tasks, including 5D experiments.
Stay at the forefront of technology with the IXplore IX85 Pro’s unmatched customizability. Now you can support diverse imaging modalities across a variety of applications with no sacrifice in performance—and empower your lab to stay prepared for whatever the future brings.
New Built-In Ports
Two built-in camera ports (left and right) and an optional third port enable enhanced functionality and the capacity to create a multi-camera configuration setup. Four optical paths are available: left (100%), right (100%), binocular (100%), and BI 50%/L 50%.
Versatile Deck Structure
Customize your microscope setup for your own experiments. An open frame design makes it simple to add or swap modules to customize functions as needed. You can also upgrade from one to two decks as research needs change.
New Built-In Threaded Holes
Built into the frame, threaded holes around the camera ports turn the IXplore IX85 Pro into a canvas for innovation, whether you’re building a custom system or integrating the frame into your product.
Modular System Design
Leverage the latest technology with a modular system that lets you upgrade and expand your platform as research needs evolve by adding features such as TruFocus™, environmental control, and imaging modalities like Spinning Disk, TIRF, photomanipulation, and SMLM. Third-party compatibility supports top-tier incubation systems, motorized stages, and more.
Live
TIRF
Spin
*1 Although it became one of the most important cell lines in medical research, it’s imperative that we recognize Henrietta Lacks’ contribution to science happened without her consent. This injustice, while leading to key discoveries in immunology, infectious disease, and cancer, also raised important conversations about privacy, ethics, and consent in medicine.
To learn more about the life of Henrietta Lacks and her contribution to modern medicine, click here.
http://henriettalacksfoundation.org/