Gas-phase ion-molecule reactions in organophosphorus esters

A review with over 100 references describes the recent applicatures. Unlike collision-induced dissociation or collisiontions of ion-molecule reactions to the study of gas-phase protonally activated dissociation, which probe the primary strucated peptides and proteins. The topic is focused specifical

Using the method of competitive reactivity of two functional groups in the same molecule, anionic elimination reactions show considerable kinetic selectivity for small differences in leaving group thermochemistry, in structures of the general type YCH 2 CH 2 CH 2 Z, where Y and Z are good anionic le

The gas-phase ion-molecule reactions of the phosphonium ion formed by electron impact with OP(OCH 3 ) 2 ' neutral trimethyl phosphite were studied with the use of a quadrupole ion trap (QIT) mass spectrometer. Observed reactions include competing methoxy transfers between and the neutral species to

The reactions of o-, m-and p-benzyne anions and the phenide ion with a series of neutral reagents are described. The m-and p-benzyne anions display similar behavior towards acids, NO and , analogous to that of phenide ion but clearly di †erent from that of o-benzyne anion. The strongly basic and nu

A method is described in which the coordination number in metal complexes can be determined using ion-molecule reactions in a quadrupole ion trap mass spectrometer. Complexes of Ðrst-row transition metals in the + 2 oxidation state, including manganese through zinc, are electrosprayed, isolated in t