Infrared photodissociation spectroscopy of heteronuclear group 15 metal–iron carbonyl cluster anions A m Fe(CO) n − (A = Sb, Bi; m , n = 2, 3)

Heteronuclear group 15 metal–iron carbonyl cluster complexes of A m Fe(CO) n − (A = Sb, Bi; m , n = 2–3) were generated in the gas phase and studied by infrared photodissociation spectroscopy in the carbonyl stretching region. Their structures were determined by comparing the experimental spectra wi...

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Published in:Physical chemistry chemical physics : PCCP 2021-06, Vol.23 (22), p.12668-12678
Main Authors: Meng, Luyan, Liu, Siying, Qin, Qifeng, Zeng, Bin, Luo, Zhen, Chi, Chaoxian
Format: Article
Language:English
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Summary:Heteronuclear group 15 metal–iron carbonyl cluster complexes of A m Fe(CO) n − (A = Sb, Bi; m , n = 2–3) were generated in the gas phase and studied by infrared photodissociation spectroscopy in the carbonyl stretching region. Their structures were determined by comparing the experimental spectra with predicted spectra derived from DFT calculations at the B3LYP and BP86 levels. All of the A m Fe(CO) n − cluster anions were determined to have Fe(CO) n − fragments with all of the CO ligands terminally bonded to the iron center, and they can be regarded as being formed via the interactions of the neutral group 15 metal clusters with the Fe(CO) n − fragments. Bonding analyses indicated that each A 2 Fe(CO) n − ( n = 2, 3) cluster anion contained two A–Fe single bonds and one A–A double bond. Each A 3 Fe(CO) n − ( n = 2, 3) cluster anion involved three A–Fe single bonds and three A–A single bonds. There is an isolobal relationship between the Fe(CO) 3 − group and the group 15 atoms. The substitution of an Fe(CO) 3 − group in place of one A atom in the tetrahedral A 4 molecule resulted in an A 3 Fe(CO) 3 − cluster anion with the closed-shell electronic configuration for all the group 15 metals and iron atoms.
ISSN:1463-9076
1463-9084
DOI:10.1039/D1CP00583A