Unimolecular fragmentation of some gaseous protonated amines

Abstract

The proton-transfer chemical ionization mass spectra of the C₃ to C₅ monoalkyl amines as well as a number of di- and tri-alkyl amines have been determined using H₃⁺ and (in some cases) HCO⁺ as protonating agent. The RNH₃⁺ ions fragment to form alkyl ions R⁺ and eliminate alkenes to form NH₄⁺. In addition, abundant immonium ions are observed in the CI mass spectra corresponding to elimination of alkane from RNH₃⁺ or to direct alkide ion abstraction from RNH₂; these ions serve to characterize the alkyl groups attached to the α-carbon atom of the amine. Although alkane elimination from RNH₃⁺ is the thermochemically favoured reaction, only R⁺ and NH₄⁺ are formed in decomposition of metastable RNH₃⁺ ions. The potential energy profile for fragmentation of i-C₃H₇NH₃⁺ has been calculated by abinitio molecular orbital methods. These calculations show that CH₄ elimination has a large energy barrier additional to the reaction endothermicity while formation of NH₄⁺ has only a small additional barrier and formation of C₃H7⁺ has no barrier additional to the endothermicity. It is concluded that the immonium ions probably arise primarily by direct alkide ion abstraction reactions.