Broadband Collision-induced Dissociation at Constant q
Researchers at Purdue University have developed a method of broadband collision-induced dissociation, fragmenting the ion population from high to low m/z (mass to charge ratio). This method is highly efficient, resulting in extensive fragment ion coverage for various complex mixtures. This method achieves more efficient dissociation with access to full product ion mass range. This method uses simpler hardware that can integrate into mass spectrometers that use ion trap analyzers.
More efficient dissociation Access to full product ion mass range Integrates into existing mass spectrometers that use ion trap mass analyzers
Mass spectrometry Biological research Chemical research Pharmaceutical research Chemical analysis
R. Graham CooksPurdue ChemistryAston Labs
United States
None
USA
