- Compound Based Scanning Software Simplifies Multi-Residue Analysis with GC-MS/MS
Product News: Compound Based Scanning Software Simplifies Multi-Residue Analysis with GC-MS/MSBruker’s new SCION TQ™ GC-MS/MS is designed to promote ease of use and increased workflow in busy analytical laboratories. The advantages offered by hardware innovations – reducing the instrument footprint by half but at the same time improving performance over traditional gas chromatography systems – are supplemented by the utility and ease of use of the unique SCION Compound Based Scanning (CBS) software.
Bruker’s software for the SCION TQ includes a number of important tools and features to make method set up, data analysis and comparisons of similar spectra much easier. With gas chromatographers in mind, the SCION software package includes: a CBS Multiple Reaction Monitoring (MRM) compound library for easy set up of methods; additional spectral libraries e.g. NIST, Wiley, Pfleger/Maure/Weber (PMW); plug in to multiple user-customizable spectral libraries with automatic search functions; and Bruker’s mass spectrometry (MS) workstation software.
Kefei Wang, Global GCMS Product Manager at Bruker CAM says: “The software makes complicated analysis easy, particularly for those with little prior mass spectrometry knowledge. MRM set up requires no expert knowledge - the compound name may be simply dragged from the pre-installed compound library and the software auto-fills the full details of the method and manages the full duty cycle of the triple quad.
Jim Koers, Bruker CAM Software Manager, added: “To put this into context, manual TQ method development for a 200 compound method would require around 12,000 keystrokes and take several days. With CBS, we can achieve a fully optimized method in a matter of hours, and with less than 200 keystrokes!”
The SCION TQ system comes complete with the Bruker compound library, which details some 2,500 MRM transitions. Results are presented in a standard pro-forma accepted across the industry and may be cross referenced against known spectral libraries to aid interpretation and final delivery.