Structure Assignment and Separation of Isomers of Palladium Oxide Cluster Anions Studied by Ion Mobility Mass Spectrometry

Geometric structures of palladium oxide cluster anions, Pd n O m – (n = 2–7, n ≥ m), were investigated by ion mobility mass spectrometry and quantum chemical calculations. Collision cross sections of the stable compositions, Pd n O n–1 – and Pd n O n –, were determined from the mobility measurement....

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Bibliographic Details
Published in:Journal of physical chemistry. C 2020-04, Vol.124 (17), p.9604-9610
Main Authors: Latif, M. Abdul, Nagata, Toshiaki, Nakano, Motoyoshi, Ohshimo, Keijiro, Misaizu, Fuminori
Format: Article
Language:English
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Summary:Geometric structures of palladium oxide cluster anions, Pd n O m – (n = 2–7, n ≥ m), were investigated by ion mobility mass spectrometry and quantum chemical calculations. Collision cross sections of the stable compositions, Pd n O n–1 – and Pd n O n –, were determined from the mobility measurement. Structures of these cluster ions were optimized by density functional theory calculations. The results commonly suggested that the plausible structures for Pd n O n–1 – were preferentially constructed by consecutive Pd–O–Pd bonds. For Pd n O n – clusters, structures with molecular oxygen (−O–O−) appeared at n ≥ 4 along with atomic oxygen. Moreover, bulky and compact isomers were found to coexist at n = 5 and 6 for Pd n O n–1 – and n = 4–6 for Pd n O n – from the experimental results. These findings showed a marked contrast with the corresponding cationic clusters in which the metal-core configurations were maintained as observed in the previous study.
ISSN:1932-7447
1932-7455
DOI:10.1021/acs.jpcc.0c01847