MALDI SYNAPT G2-Si Mass Spectrometry
Transform your MALDI discovery capability
SYNAPT is a high resolution discovery MALDI MS platform for imaging, biological research and chemical materials characterization, combining supreme performance with powerful workflows and unparalleled experimental versatility.
- High Performance, Accurate Mass MALDI MS/MS
- High Definition Imaging (HDI) MALDI workflows
- Wide Range of Experimental Options
- Ultimate UPLC/MS/MS Performance
- Upgrade to multiple dimensions of resolution!
High Performance, Accurate Mass MALDI MS/MS
The MALDI SYNAPT G2-Si MS System enables you to produce optimal results for imaging, chemical materials characterization, proteomics and pharmaceutical applications. The MALDI SYNAPT G2-Si is powered by a solid state laser with a repetition rate of 2.5KHz to maximize the speed of your analysis. The laser spot size can be selected for optimising sensitivity and speed of analysis, or for maximizing spatial resolution in Imaging studies. Due to the orthogonal geometry of the Tof analyzer, the source is decoupled from the mass analysis. So, unlike axial MALDI-Tof or Tof/Tof instruments, this ensures that high resolution and accurate mass are achieved in both MS and MS/MS modes across a wide mass range. In addition, SYNAPT is well suited to nonconductive samples such as paraffin embedded tissue sections on glass.
High Definition Imaging (HDI) MALDI workflows
MALDI SYNAPT G2-Si MS combines QuanTof technology within a streamlined imaging workflow to deliver routine, confident, imaging analysis.
The HDI MALDI solution provides a powerful targeted (MS/MS) and untargeted (MS) workflows from image-centric method set-up to data processing and image generation. Integrated correlation (based on spatial location drift-time related fragment ions) and statistical tools (e.g. PCA, OPLS-DA, S-plots, hierarchical clustering) also combine to deliver more intelligent and confident imaging analysis.
With the ability to access full UPLC/MS/MS capability on SYNAPT, you also have the power of high performance quantitative and discovery analysis from bio-fluids or laser-dissected tissue sections on the same platform.web site