Direct Identification of Acetaldehyde Formation and Characterization of the Active Site in the [VPO(4)](.+)/C(2)H(4) Couple by Gas‐Phase Vibrational Spectroscopy

The gas‐phase reaction of the heteronuclear oxide cluster [VPO(4)](.+) with C(2)H(4) is studied under multiple collision conditions at 150 K using cryogenic ion‐trap vibrational spectroscopy combined with electronic structure calculations. The exclusive formation of acetaldehyde is directly identifi...

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Detalles Bibliográficos
Autores principales: Li, Ya‐Ke, Debnath, Sreekanta, Schlangen, Maria, Schöllkopf, Wieland, Asmis, Knut R., Schwarz, Helmut
Formato: Online Artículo Texto
Lenguaje:English
Publicado: John Wiley and Sons Inc. 2019
Materias:
Communications
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC6973009/
https://www.ncbi.nlm.nih.gov/pubmed/31637840
http://dx.doi.org/10.1002/anie.201911040
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author Li, Ya‐Ke
Debnath, Sreekanta
Schlangen, Maria
Schöllkopf, Wieland
Asmis, Knut R.
Schwarz, Helmut
author_facet Li, Ya‐Ke
Debnath, Sreekanta
Schlangen, Maria
Schöllkopf, Wieland
Asmis, Knut R.
Schwarz, Helmut
author_sort Li, Ya‐Ke
collection PubMed
description The gas‐phase reaction of the heteronuclear oxide cluster [VPO(4)](.+) with C(2)H(4) is studied under multiple collision conditions at 150 K using cryogenic ion‐trap vibrational spectroscopy combined with electronic structure calculations. The exclusive formation of acetaldehyde is directly identified spectroscopically and discussed in the context of the underlying reaction mechanism. In line with computational predictions it is the terminal P=O and not the V=O unit that provides the oxygen atom in the barrier‐free thermal C(2)H(4)→CH(3)CHO conversion. Interestingly, in the course of the reaction, the emerging CH(3)CHO product undergoes a rather complex intramolecular migration, coordinating eventually to the vanadium center prior to its liberation. Moreover, the spectroscopic structural characterization of neutral C(2)H(4)O deserves special mentioning as in most, if not all, ion/molecule reactions, the neutral product is usually only indirectly identified.
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spelling pubmed-69730092020-01-27 Direct Identification of Acetaldehyde Formation and Characterization of the Active Site in the [VPO(4)](.+)/C(2)H(4) Couple by Gas‐Phase Vibrational Spectroscopy Li, Ya‐Ke Debnath, Sreekanta Schlangen, Maria Schöllkopf, Wieland Asmis, Knut R. Schwarz, Helmut Angew Chem Int Ed Engl Communications The gas‐phase reaction of the heteronuclear oxide cluster [VPO(4)](.+) with C(2)H(4) is studied under multiple collision conditions at 150 K using cryogenic ion‐trap vibrational spectroscopy combined with electronic structure calculations. The exclusive formation of acetaldehyde is directly identified spectroscopically and discussed in the context of the underlying reaction mechanism. In line with computational predictions it is the terminal P=O and not the V=O unit that provides the oxygen atom in the barrier‐free thermal C(2)H(4)→CH(3)CHO conversion. Interestingly, in the course of the reaction, the emerging CH(3)CHO product undergoes a rather complex intramolecular migration, coordinating eventually to the vanadium center prior to its liberation. Moreover, the spectroscopic structural characterization of neutral C(2)H(4)O deserves special mentioning as in most, if not all, ion/molecule reactions, the neutral product is usually only indirectly identified. John Wiley and Sons Inc. 2019-11-08 2019-12-19 /pmc/articles/PMC6973009/ /pubmed/31637840 http://dx.doi.org/10.1002/anie.201911040 Text en © 2019 The Authors. Published by Wiley-VCH Verlag GmbH & Co. KGaA. This is an open access article under the terms of the http://creativecommons.org/licenses/by/4.0/ License, which permits use, distribution and reproduction in any medium, provided the original work is properly cited.
spellingShingle Communications
Li, Ya‐Ke
Debnath, Sreekanta
Schlangen, Maria
Schöllkopf, Wieland
Asmis, Knut R.
Schwarz, Helmut
Direct Identification of Acetaldehyde Formation and Characterization of the Active Site in the [VPO(4)](.+)/C(2)H(4) Couple by Gas‐Phase Vibrational Spectroscopy
title Direct Identification of Acetaldehyde Formation and Characterization of the Active Site in the [VPO(4)](.+)/C(2)H(4) Couple by Gas‐Phase Vibrational Spectroscopy
title_full Direct Identification of Acetaldehyde Formation and Characterization of the Active Site in the [VPO(4)](.+)/C(2)H(4) Couple by Gas‐Phase Vibrational Spectroscopy
title_fullStr Direct Identification of Acetaldehyde Formation and Characterization of the Active Site in the [VPO(4)](.+)/C(2)H(4) Couple by Gas‐Phase Vibrational Spectroscopy
title_full_unstemmed Direct Identification of Acetaldehyde Formation and Characterization of the Active Site in the [VPO(4)](.+)/C(2)H(4) Couple by Gas‐Phase Vibrational Spectroscopy
title_short Direct Identification of Acetaldehyde Formation and Characterization of the Active Site in the [VPO(4)](.+)/C(2)H(4) Couple by Gas‐Phase Vibrational Spectroscopy
title_sort direct identification of acetaldehyde formation and characterization of the active site in the [vpo(4)](.+)/c(2)h(4) couple by gas‐phase vibrational spectroscopy
topic Communications
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC6973009/
https://www.ncbi.nlm.nih.gov/pubmed/31637840
http://dx.doi.org/10.1002/anie.201911040
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