Snap-shots of cluster growth: structure and properties of a Zintl ion with an Fe3 core, [Fe3Sn18]4

Snap-shots of cluster growth: structure and properties of a Zintl ion with an Fe3 core, [Fe3Sn18]4

The endohedral Zintl-ion cluster [Fe3Sn18]4− contains a linear Fe3 core with short Fe–Fe bond lengths of 2.4300(9) Å. The ground state is a septet, with significant σ and π contributions to the Fe–Fe bonds. The Sn18 cage is made up of two partially fused Sn9 fragments, and is structurally intermedia...

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Bibliographic Details
Published in:Chemical science (Cambridge) Vol. 15; no. 3; pp. 1018 - 1026
Main Authors: Zi-Sheng, Li, Wei-Xing, Chen, Morgan, Harry W T, Cong-Cong Shu, McGrady, John E, Zhong-Ming, Sun
Format: Journal Article
Language:English
Published: Cambridge Royal Society of Chemistry 17-01-2024
The Royal Society of Chemistry
Subjects:
Chemistry
Clusters
Electronic structure
Fragments
Oligomerization
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Summary:The endohedral Zintl-ion cluster [Fe3Sn18]4− contains a linear Fe3 core with short Fe–Fe bond lengths of 2.4300(9) Å. The ground state is a septet, with significant σ and π contributions to the Fe–Fe bonds. The Sn18 cage is made up of two partially fused Sn9 fragments, and is structurally intermediate between [Ni2CdSn18]6−, where the fragments are clearly separated and [Pd2Sn18]4−, where they are completely fused. It therefore represents an intermediate stage in cluster growth. Analysis of the electronic structure suggests that the presence of the linear Fe–Fe–Fe unit is an important factor in directing reactions towards fusion of the two Sn9 units rather than the alternative of oligomerization via exo bond formation.
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These authors contributed equally
ISSN:2041-6520
2041-6539
DOI:10.1039/d3sc04709a