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3 Scientists have reviewed this product
5 out of 5
Ease of use
5 out of 5
After sales service
4 out of 5
Value for money
Great HTS tool for generating high quality images
"Very easy to use. Acquisition software user friendly and new users can pick it up easily. High quality images obtained and built-in analysis software also easy to use."
Review date: 15 Mar 2019 |
IN Cell Analyzer 6000 Rating: 5.0
"Easy to operate, high throughput screening. Pictures produced are of good quality."
Review date: 11 Jun 2012 |
IN Cell Analyzer 6000 Rating: 4.3
"A very good HCA system. Robust and easy-to-use."
Review date: 30 Jun 2011 |
IN Cell Analyzer 6000 IN Cell Analyzer 6000
IN Cell Analyzer 6000 is a high-performance, laser-based confocal imaging platform for the most demanding high-content assays and screens. Featuring a novel and proprietary optical system that incorporates an iris-like variable aperture design and next-generation sCMOS technology, IN Cell Analyzer 6000 enables you to optimise for speed and image quality for challenging and variable assays.
Fully adjustable imaging with proprietary optical system
Confocality redefined: Inspired by the anatomy of the eye, the optical system delivers a new level of control for image acquisition, to maximize performance.
While conventional confocal technology is optimal when using high-power objectives, lower and mid-power objectives are typically used for everyday cellular assays. The iris-like variable aperture technology of the IN Cell Analyzer 6000 enables flexibility across a range of objectives, delivering the benefits of confocal technology across a broad spectrum of high-content challenges.
• Use in open aperture mode to maximize speed
• Use in full confocal mode for efficient background rejection
• Select any aperture setting between 1 and 3 AU to suit your specific biology
• Optimize the degree of confocality required for each channel of an assay with the simple click of a mouse
IN Cell Analyzer 6000 enables
• Throughput without compromise
• Suitable for challenging applications
• Fully adjustable imaging