Waters Full Spectrum Molecular Imaging System by Waters

Manufacturer Waters  |  Available Worldwide
  |  1 reviews
A combination of advanced MS imaging technologies including MALDI, DESI and ion mobility.

Waters Full Spectrum Molecular Imaging System by Waters product image
Waters Full Spectrum Molecular Imaging System
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Average Rating: 5.0
1 Scientist has reviewed this product

5 out of 5
Ease of use
5 out of 5
After sales service
5 out of 5
Value for money

  • Status:

  • Member since: 2019

  • Organization: Science

  • Ease of use
    5 out of 5
    After sales service
    5 out of 5
    Value for money
    5 out of 5
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Very satisfied with the quality.
Rating: 5.0

  • Application Area: Medical field

"Great products, work great, great customer service, easy use."

Review date: 26 Mar 2019 | Waters Full Spectrum Molecular Imaging System

Bringing together powerful technologies to discover, identify and measure a broad range of molecular targets with one system.


Combination of advanced Mass Spectrometry imaging technologies
A choice of complementary ionization techniques provides flexibility and delivers multi-layered, information-rich data from a single sample.

Multiple Experiments with the Same Sample
The non-destructive nature of DESI means that a single tissue section can be analyzed multiple times, for example at different spatial resolutions or in different polarities, without significant degradation of signal or modification of chemical signature.

MS imaging with the power of Ion Mobility
SYNAPT HDMS enables the powerful combination of MALDI and DESI imaging with ion mobility-mass spectrometry.  This allows the gas phase separation of ions by compound class and charge in an MS imaging experiment, providing a level of selectivity that would not be possible with mass resolution alone.

Available on IMS MS/MS or MS/MS
Waters QTof systems provide the ideal platform for MS imaging, with superior performance, proven robustness and reliability, and the flexibility to adapt to changing priorities and future needs.  Highly efficient fragmentation is achieved via low energy collision induced dissociation (CID), while orthogonal geometry means that key performance attributes such as resolution and accurate mass are unaffected by changes in sample surface topography.


Features & Benefits:

  • More comprehensive, detailed information than from any individual imaging technique
  • Maximum information from minimal sample
  • Definitively and objectively interpret molecular distribution information
  • Intuitive, integrated software suite covering the full MS imaging workflow
  • Flexibility to adapt to changing day-to-day priorities and future needs
  • Single vendor for total system support