Reactive collisions in quadrupole cells. 3: H/D exchange reactions of protonated aromatic amines with ND3

The H / D exchange reactions of enolate ions with CH3OD and C2H5OD at low collision energies in the quadrupole collision cell of a hybrid tandem BEqQ mass spectrometer have been studied. The optimum parameters for exchange were elucidated using the enolate ion of acetone as a test reactant ion. With

The gas-phase H-D exchange reactions of protonated amino acids and small peptides with ND, have been studied for reactions occurring in the quadruple collision cell of a hybrid BEqQ mass spectrometer (B = magnetic sector, E = electric sector, q = quadrupole collision cell, Q = quadrupole mass analyz

## Abstract H–D exchange reations which occur between protonated molecules (mainly aromatic hydrocarbons) and deuterated neutrals (D~2~O, CD~3~OD and benzene‐__d__~6~) were studied using a hexapole collision cell. The efficiency of exchange is dependent on the proton affinity difference between aro

## Abstract H–D exchange reactions of methanol‐__d__~1~ with protonated amino acids were performed in an external‐source Fourier transform mass spectrometer. Absolute rate constants were determined for the group which included glycine, alanine, valine, leucine, isoleucine and proline. By comparing

## Abstract The reactions of mass‐selected [CH~3~NH~2~]^+^˙ ions with the isomeric butenes and pentenes were studied at low collision energies in the radiofrequency‐only quadrupole collision cell of a hybrid BEqQ tandem mass spectrometer. Characteristic iminium ions arising by addition of the methy