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Teatime Session
Day 3, June 24(Tue.) 15:10-15:40
Room B (Maesato Center)
- 3B-T-1510
Advances in Magnetic Resonance Mass Spectrometry (MRMS) Magnet Technologies and Instrumentation – Built to Enable World Class Science
(1Bruker, 2Bruker Daltonics)
oMike Greig1, Christopher Wootton2, Paul Speir1, Jochen Friedrich2, Michael Easterling1
Magnetic Resonance Mass Spectrometry uses FT-ICR technology for data acquisition, making it one of the most powerful and versatile mass spectrometers in the world. Bruker has been the commercial leader since mid-1980's with constant innovation. The installation of an 18 Tesla magnet at the University of Rouen, France, demonstrates Bruker's advances in high field superconducting magnet technology. Bruker's 7 Tesla Maxwell magnets have conduction cooling technology which enables siting in standard lab space and eliminates liquid cryogen filling.
MRMS is ideal for analysis of complex samples related to the environment, energy, materials science, drug impurities, and metabolic pathways. Tens of thousands of individual molecules have been identified from a single scan by taking advantage high dynamic range, ultra-high resolving power, ppb mass accuracy, and isotopic fine structure analysis. Imaging with MRMS enables visualization of the spatial distribution of molecules in plants, tissues, circuit boards, paper, films, TLC, corks, fingerprints and more with enhanced sensitivity, specificity and depth.
The introduction of trapped ion mobility spectrometry (TIMS) fundamentally changed how mass spectrometry labs approach proteomics, metabolomics, lipidomics and beyond. By combining TIMS with MRMS, this ultra-powerful system not only has the aforementioned properties but can also tackle isomeric diversity.