Structural characterization of various dirhodium compounds using fast atom bombardment and collision-induced dissociation mass spectrometry

A mass spectrometric method based on the combined use of fast-atom bombardment (FAB), collisioninduced dissociation (CID) and linked scanning at constant B/E has been used for the analysis of the fragmentation behavior of protonated 3-methoxyflavones (3-MFs). It is shown that several diagnostic ions

## Abstract The protonated and sodium cationized pseudomolecular ions of a series of reducing and non‐reducing oligosaccharides possessing aldopentopyranosyl, 6‐deoxyaldohexopyranosyl, ketohexofuranosyl, 4‐__O__‐methyl glucuronopyranosyl methyl ester and __N__‐acetyl 2‐deoxyglucopyranosylamine unit

## Abstract The collision‐induced dissociation (CID) spectra of glycoside–alkali metal adduct ions [M + C]^+^ (C = Li, Na, K and Rb) produced under fast atom bombardment (FAB) conditions are reported. The results obtained suggested that the CID spectra of the [M + C]^+^ ions of some flavonoid glyco

Fast atom bombardment mass spectra of a series of naturally occurring and synthetically modified iridoid glycosides were studied using lithium cationization and collision-induced dissociation of the resulting [M Y Li] Y ions. Lithium cationization leads to the unambiguous determination of the molecu

Mass spectral data are reported for an extended series of synthesized acylcarnitines. Direct mass spectrometry was performed using ionization by fast atom bombardment in combination with high-energy collisional activation and B/E linked scanning. The data show that it is possible to distinguish betw