Volume 218, 2019

Combating selective ionization in the high resolution mass spectral characterization of complex mixtures

Abstract

Direct “dilute and shoot” mass spectral analysis of complex naturally-occurring mixtures has become the “standard” analysis in environmental and petrochemical science, as well as in many other areas of research. Despite recent advances in ionization methods, that approach still suffers several limitations for the comprehensive characterization of compositionally complex matrices. Foremost, the selective ionization of highly acidic (negative electrospray ionization ((−) ESI)) and/or basic (positive electrospray ionization ((+) ESI)) species limits the detection of weakly acidic/basic species, and similar issues (matrix effects) complicate atmospheric pressure photo-ionization (APPI)/atmospheric pressure chemical ionization (APCI) analyses. Furthermore, given the wide range of chemical functionalities and structural motifs in these compositionally complex mixtures, aggregation can similarly limit the observed species to a small (10–20%) mass fraction of the whole sample. Finally, irrespective of the ionization method, the mass analyzer must be capable of resolving tens-of-thousands of mass spectral peaks and provide the mass accuracy (typically 50–300 ppb mass measurement error) required for elemental composition assignment, and thus is generally limited to high-field Fourier transform ion cyclotron mass spectrometry (FT-ICR MS). Here, we describe three approaches to combat the above issues for (+) ESI, (−) ESI, and (+) APPI FT-ICR MS analysis of petroleum samples. Each approach relies on chromatographic fractionation to help reduce selective ionization discrimination and target either specific chemical functionalities (pyridinic and pyrrolic species (nitrogen) or carboxylic acids (oxygen)) or specific structural motifs (single aromatic core (island) or multi-core aromatics (archipelago)) known to be related to ionization efficiency. Each fractionation method yields a 2–10-fold increase in the compositional coverage, exposes species that are undetectable using direct “dilute and shoot” analysis, and provides coarse selectivity in chemical functionalities that can both increase the assignment confidence and optimize ionization conditions to maximize compositional coverage.

Graphical abstract: Combating selective ionization in the high resolution mass spectral characterization of complex mixtures

Associated articles

Supplementary files

Article information

Article type
Paper
Submitted
11 jan 2019
Accepted
13 mar 2019
First published
11 jun 2019

Faraday Discuss., 2019,218, 29-51

Author version available

Combating selective ionization in the high resolution mass spectral characterization of complex mixtures

R. P. Rodgers, Mmilili M. Mapolelo, W. K. Robbins, M. L. Chacón-Patiño, J. C. Putman, S. F. Niles, S. M. Rowland and A. G. Marshall, Faraday Discuss., 2019, 218, 29 DOI: 10.1039/C9FD00005D

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