An electrospray ionization mass spectrometry study of azidoacetic acid/transition metal complexes: Complexation of azidoacetic acid with transition metals
An electrospray ionization mass spectrometry study of azidoacetic acid/transition metal complexes: Complexation of azidoacetic acid with transition metals
Rationale
The complexation behavior of transition metals with organic azides by electrospray ionization (ESI) tandem mass spectrometry (MS/MS) is not completely understood. In this study, fragmentation patterns of complex ions having azidoacetic acid coordinated to Ni/Co/Fe were elucidated. The role of transition metals in the mediation of ligand rearrangements in gas phase is experimentally supported.
Methods
The complexation of some transition metals, nickel, cobalt and iron, by azidoacetic acid was studied by means of ESI and MS/MS. Fragmentation patterns were discerned via consecutive MS/MS experiments on an ion trap mass spectrometer and confirmed by high‐resolution (HR) Fourier transform ion cyclotron resonance MS. Density functional theory (DFT) calculations were used to characterize the major ions observed in MS.
Results
Only singly positively charged complex ions were detected presenting various stoichiometries. MS/MS and theoretical calculations allowed us to confirm assignments and coordination sites. Structural evidence suggested that the azidoacetic acid can behave as monodentate and/or bidentate and coordination through the oxygen and nitrogen atoms are both possible. Experimental evidence strongly points to a role of Ni/Co/Fe, in oxidative state (I), in mediating C–C bond activation in the gas phase.
Conclusions
MS/MS and HRMS experiments were able to elucidate azidoacetic acid complexation with Ni/Co/Fe and several gas‐phase processes involving metal reduction and rearrangements. The definition of the coordination pattern dictated by the competition between the nitrogen and the oxygen atoms is also dependent on the metal centre in a very dynamic process.
1001-1013
Pinto, Vítor S.
611bdf63-046c-4480-a917-5eea2108b482
Marques, Susana C.R.
6869d027-127d-4ecd-9287-b2453e14d2a2
Rodrigues, Paula
3afa5375-0c99-47ca-b1c8-2e4d86b79e77
Barros, M. Teresa
1585f58c-5994-4715-afb5-8fdbbd21a938
Costa, M. Lourdes
e57b9f9e-925e-43c3-a8eb-86f34c963f1d
Langley, G. John
7ac80d61-b91d-4261-ad17-255f94ea21ea
Fernandez, M. Tereza
5b4d8592-bb31-4c12-959f-4cd6d2eb2da7
Cabral, Benedito J.C.
94363559-9aa9-4448-83a1-7f881bab73c5
Duarte, M. Filomena
f168b030-f796-4c96-bae8-04d4a965f27e
Couto, Narciso
9c526803-7b9d-4914-81e1-a4cbb6c55a59
30 June 2017
Pinto, Vítor S.
611bdf63-046c-4480-a917-5eea2108b482
Marques, Susana C.R.
6869d027-127d-4ecd-9287-b2453e14d2a2
Rodrigues, Paula
3afa5375-0c99-47ca-b1c8-2e4d86b79e77
Barros, M. Teresa
1585f58c-5994-4715-afb5-8fdbbd21a938
Costa, M. Lourdes
e57b9f9e-925e-43c3-a8eb-86f34c963f1d
Langley, G. John
7ac80d61-b91d-4261-ad17-255f94ea21ea
Fernandez, M. Tereza
5b4d8592-bb31-4c12-959f-4cd6d2eb2da7
Cabral, Benedito J.C.
94363559-9aa9-4448-83a1-7f881bab73c5
Duarte, M. Filomena
f168b030-f796-4c96-bae8-04d4a965f27e
Couto, Narciso
9c526803-7b9d-4914-81e1-a4cbb6c55a59
Pinto, Vítor S., Marques, Susana C.R., Rodrigues, Paula, Barros, M. Teresa, Costa, M. Lourdes, Langley, G. John, Fernandez, M. Tereza, Cabral, Benedito J.C., Duarte, M. Filomena and Couto, Narciso
(2017)
An electrospray ionization mass spectrometry study of azidoacetic acid/transition metal complexes: Complexation of azidoacetic acid with transition metals.
Rapid Communications in Mass Spectrometry, 31 (12), .
(doi:10.1002/rcm.7877).
Abstract
Rationale
The complexation behavior of transition metals with organic azides by electrospray ionization (ESI) tandem mass spectrometry (MS/MS) is not completely understood. In this study, fragmentation patterns of complex ions having azidoacetic acid coordinated to Ni/Co/Fe were elucidated. The role of transition metals in the mediation of ligand rearrangements in gas phase is experimentally supported.
Methods
The complexation of some transition metals, nickel, cobalt and iron, by azidoacetic acid was studied by means of ESI and MS/MS. Fragmentation patterns were discerned via consecutive MS/MS experiments on an ion trap mass spectrometer and confirmed by high‐resolution (HR) Fourier transform ion cyclotron resonance MS. Density functional theory (DFT) calculations were used to characterize the major ions observed in MS.
Results
Only singly positively charged complex ions were detected presenting various stoichiometries. MS/MS and theoretical calculations allowed us to confirm assignments and coordination sites. Structural evidence suggested that the azidoacetic acid can behave as monodentate and/or bidentate and coordination through the oxygen and nitrogen atoms are both possible. Experimental evidence strongly points to a role of Ni/Co/Fe, in oxidative state (I), in mediating C–C bond activation in the gas phase.
Conclusions
MS/MS and HRMS experiments were able to elucidate azidoacetic acid complexation with Ni/Co/Fe and several gas‐phase processes involving metal reduction and rearrangements. The definition of the coordination pattern dictated by the competition between the nitrogen and the oxygen atoms is also dependent on the metal centre in a very dynamic process.
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More information
Accepted/In Press date: 7 April 2017
e-pub ahead of print date: 17 May 2017
Published date: 30 June 2017
Identifiers
Local EPrints ID: 413217
URI: http://eprints.soton.ac.uk/id/eprint/413217
ISSN: 0951-4198
PURE UUID: aa6ec115-5f90-4bf8-91ab-e92edef73c95
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Date deposited: 17 Aug 2017 16:30
Last modified: 16 Mar 2024 02:41
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Contributors
Author:
Vítor S. Pinto
Author:
Susana C.R. Marques
Author:
Paula Rodrigues
Author:
M. Teresa Barros
Author:
M. Lourdes Costa
Author:
M. Tereza Fernandez
Author:
Benedito J.C. Cabral
Author:
M. Filomena Duarte
Author:
Narciso Couto
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