Studying Structural
Details in Complex Samples: II.
High Field Asymmetric Waveform Ion Mobility Spectrometry (FAIMS) Coupled
to High Resolution Tandem Mass Spectrometry (MS/MS)
posted on 2024-11-26, 00:03authored byAlessandro Vetere, Wolfgang Schrader
The
elucidation of structural motifs in extremely complex mixtures
is very difficult since the standard methods for structural elucidation
are not capable to provide significant information on a single molecule.
The best method for the analysis of complex mixtures is ultrahigh
resolution mass spectrometry, but the utilization of this method alone
does not provide significant information about structural details.
Here, a combination with a separation method is necessary. While chromatography
is a well-established technique, it has some disadvantages in regard
to the separation of complex mixtures, as often no separation of individual
isomers is possible. Therefore, here the combination of an ion mobility
separation with ultrahigh resolution mass spectrometry is evaluated.
As a sample matrix, crude oil is used because it is an excellent matrix
to develop new analytical techniques on complex samples. Crude oil
is the most complex natural sample known, but only little information
is available on the structural identity or functionalities due to
a high number of structural isomers or isobars. A lab-built APPI/APLI-FAIMS
source was revised to optimize ion transmission and used to follow
up on the ion mobility of crude oil constituents after photoionization.
An MS/MS approach using collision-induced dissociation (CID) was used
to elucidate structural motifs of the transmitted isomers.