Direct analysis in real time mass spectrometry of fused ring heterocyclic organometallic compounds

Michael G. Mazzotta; Jason O. E. Young; Jesse W. Evans; Levi A. Dopierala; Zachariah. A. Claytor; Adam C. Smith; Chad Snyder; Nathan C. Tice; Darrin L. Smith

doi:10.1039/C5AY00295H

Direct analysis in real time mass spectrometry of fused ring heterocyclic organometallic compounds

Michael G. Mazzotta,†^a Jason O. E. Young,†^b Jesse W. Evans,†^b Levi A. Dopierala,†^b Zachariah. A. Claytor,†^b Adam C. Smith,†^b Chad Snyder,^b Nathan C. Tice^c and Darrin L. Smith*^a

Author affiliations

* Corresponding authors

^a Department of Chemistry, Eastern Kentucky University, 521 Lancaster Ave., Richmond, KY 40475, USA
E-mail: darrin.smith@eku.edu
Tel: +1-859-622-8380

^b Department of Chemistry, Western Kentucky University, 1906 College Heights Blvd., Bowling Green, KY 42101, USA

^c Department of Chemistry, The University of Findlay, 1000 North Main St., Findlay, OH 45840, USA

Abstract

Direct analysis in real time (DART) was able to desorb/ionize a series of fused-ring heterocyclic organometallic compounds to allow molecular analysis using a linear ion-trap mass spectrometer. Limited data is available pertaining to the use of ambient ionization with organometallic compounds but the developed analytical method allowed direct sampling of solutions prepared from pure organometallic compounds in dichloromethane to generate signals in the positive mode. A protonated molecule was detected (even when a charged ring structure was present) but signal intensity was dependent on the organometallic compound with respect to the specific metal–ligand interaction of the molecule as well as the helium gas temperature in the DART ion source. In addition, dimer formation for compounds was also observed. Tandem mass spectrometry was also possible to verify the tricarbonyl groups from the organometallic compound and show relative differences with respect to metal coordination. The desorption/ionization of these heterocyclic organometallic compounds with DART potentially gives synthetic chemists another ionization choice for rapid reaction product monitoring.

Article information

https://doi.org/10.1039/C5AY00295H

Article type

Technical Note

Submitted

02 Feb 2015

Accepted

27 Mar 2015

First published

14 Apr 2015

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Anal. Methods, 2015,7, 4003-4007

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Direct analysis in real time mass spectrometry of fused ring heterocyclic organometallic compounds

M. G. Mazzotta, J. O. E. Young, J. W. Evans, L. A. Dopierala, Zachariah. A. Claytor, A. C. Smith, C. Snyder, N. C. Tice and D. L. Smith, Anal. Methods, 2015, 7, 4003 DOI: 10.1039/C5AY00295H

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Analytical Methods

Direct analysis in real time mass spectrometry of fused ring heterocyclic organometallic compounds

Abstract

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Direct analysis in real time mass spectrometry of fused ring heterocyclic organometallic compounds

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