Issue 23, 2015

Analysis of diarylmethylamine compounds using electrospray mass spectrometry: formation mechanisms of radical ions and dehydro cations

Abstract

A series of diarylmethylamine compounds were analyzed using electrospray ionization quadrupole time-of-flight mass spectrometry (ESI-QTOF-MS). [M]+˙ and [M − H]+ were both observed, but showed different abundances. A possible mechanism for the formation of [M]+˙ and [M − H]+ was proposed to explicate the rule for the ratio change of I[M]+˙/I[M−H]+. The [M]+˙ has two structures, which can interconvert into each other in the gas phase. The substituted groups on the benzene rings play a crucial role in the transfer between the two structures. Electron withdrawing groups can prevent the formation of carbocations, thus nitro-containing diarylmethylamines remained mainly as structure I and were detected as [M]+˙. On the contrary, electron donating groups help to stabilize carbocations. This makes structure I transfer to structure II, and structure II prefers to further generate [M − H]+ by loss of an H radical. Nuclear magnetic resonance and D-labelled MS experiments indicate that the 1-C–H bond has strong activity.

Graphical abstract: Analysis of diarylmethylamine compounds using electrospray mass spectrometry: formation mechanisms of radical ions and dehydro cations

Supplementary files

Article information

Article type
Communication
Submitted
01 Sep 2015
Accepted
01 Oct 2015
First published
02 Oct 2015

Analyst, 2015,140, 7864-7867

Author version available

Analysis of diarylmethylamine compounds using electrospray mass spectrometry: formation mechanisms of radical ions and dehydro cations

T. Cai, X. Xu and Z. Wu, Analyst, 2015, 140, 7864 DOI: 10.1039/C5AN01785H

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