Abstract
The gas‐phase reaction of the heteronuclear oxide cluster [VPO4].+ with C2H4 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 C2H4→CH3CHO conversion. Interestingly, in the course of the reaction, the emerging CH3CHO product undergoes a rather complex intramolecular migration, coordinating eventually to the vanadium center prior to its liberation. Moreover, the spectroscopic structural characterization of neutral C2H4O deserves special mentioning as in most, if not all, ion/molecule reactions, the neutral product is usually only indirectly identified.
Highlights
The gas-phase reaction of the heteronuclear oxide cluster [VPO4]C+ with C2H4 is studied under multiple collision conditions at 150 K using cryogenic ion-trap vibrational spectroscopy combined with electronic structure calculations
We describe the spectroscopic characterization of the reaction of the [VPO4]C+/C2H4 couple
At room temperature, [VPO4]C+ brings about the selective conversion of C2H4 to form C2H4O.[8]
Summary
Abstract: The gas-phase reaction of the heteronuclear oxide cluster [VPO4]C+ with C2H4 is studied under multiple collision conditions at 150 K using cryogenic ion-trap vibrational spectroscopy combined with electronic structure calculations. What has been missing far is an unambiguous experimental characterization of relevant reaction intermediates and the products, for example, the structural assignment of the [VPO3]C+ ion and in particular the neutral OAT C2H4O (Scheme 1).
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