Matrix effects in fast atom bombardment mass spectrometry of cationic iridium(III) and rhodium(III) coordination complexes

## Abstract A series of 27 Mn(III)‐tetraarylporphyrins bearing heterogeneous substituents on the phenyl rings at the meso positions were subjected to positive ion fast atom bombardment mass spectrometry The source spectra yielded the molecular ion and a few peaks confirmative of the chemical struct

Fast atom bombardment (FAB) mass spectrometry has been used to examine a series of rhodium, iridium and platinum orgmometaUic complexes, in wbich a cumdene ligand is attached to the metal in either uor bonding fashion. The most intense ion formed in the rhodium and platinum series is the metal-bis(t

A study of the fast-atom bombardment spectra of positive ions which result from doubly charged heterocyclic cationic compounds shows the influence of the matrix on the nature of the spectrum. While two reduction reactions are encountered with glycerol (electron and hydride anion attachment), the spe

Complexation of aluminum ions {AI(III) in glycerol} with a-amino acids has been studied by FAB mass spectrometry. Twelve a-amino acids and cysteine methyl ester interact with different Al(II1)-containing ions and form several cluster ions such as [M+117]', [117={Al(LII)+glycerol-2H}]; [M+231]+, [231