Talanta 2015-01-01

Separation of isomeric amines with ion mobility spectrometry.

Jaakko Laakia, Tiina J Kauppila, Alexey Adamov, Alexey A Sysoev, Tapio Kotiaho

文献索引:Talanta 132 , 889-93, (2015)

全文:HTML全文

摘要

Eight selected isomeric amines were ionized using atmospheric pressure chemical ionization and atmospheric pressure photoionization producing a protonated molecule [M+H](+) for each amine. The mobility of these ions was measured by ion mobility spectrometry. The amine compound class was shown to have an important role in mobility separation of the amines. 2,4,6-collidine, N,N-dimethylaniline and N-methyl-o-toluidine with highest observed mobilities have a N-heterocyclic aromatic ring, or are tertiary or secondary amines, respectively, whereas the rest of the compounds with lower mobilities were primary amines. It is suggested that the protonated -NH2 group (-NH3(+)) interacts more with the drift gas, and therefore the primary amines have lower mobilities. The effect of the drift gas was tested by mixing argon or helium with the nitrogen drift gas. The presence of argon shifted the mobilities towards lower values, while with helium the mobility shifted towards higher values. However, in neither case did this result in better separation of the unresolved compounds. Copyright © 2014 Elsevier B.V. All rights reserved.


相关化合物

  • N-甲基邻甲苯胺

相关文献:

Carbon dioxide: a reagent for the simultaneous protection of nucleophilic centers and the activation of alternative locations to electrophilic attack. XVI, A novel synthetic method for the side-chain functionalization of N-methyl-o-toluidine and for the preparation of 2-substituted N-methylindoles. Katritzky AR, et al.

[Heterocycles 30(1) , 407-14, (1990)]

A Practical Synthetic Method for N-Methyl-o-Toluidine. Katritzky AR and Akutagawa K.

[Org. Prep. Proced. Int. 21(3) , 340-341, (1989)]

更多文献...