Establishing Family Relations in Group 15 Halogenido Metalates with the Largest Molecular Antimony Iodide Anion

Studying structurally related families of compounds is a valuable tool in understanding and predicting material properties and has been extensively used for metal halide perovskites. Due to the variable anion structures in group 15 halogenido metalates, similar family relations are still largely mis...

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Bibliographic Details
Published in:Chemistry : a European journal 2023-01, Vol.29 (2), p.e202202931-n/a
Main Authors: Möbs, Jakob, Stuhrmann, Gina, Weigend, Florian, Heine, Johanna
Format: Article
Language:English
Subjects:
Anions
Antimony
Antimony compounds
Chemistry
density functional calculations
Iodides
iodine
Material properties
Metal halides
Optical properties
Perovskites
Quantum chemistry
UV/Vis spectroscopy
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Summary:Studying structurally related families of compounds is a valuable tool in understanding and predicting material properties and has been extensively used for metal halide perovskites. Due to the variable anion structures in group 15 halogenido metalates, similar family relations are still largely missing. Herein, we present compounds featuring the [Sb2nI6n+4]4− family of anions, including the first n=5 member in [Hpyz]4[Sb10I34] (Hpyz=pyrazinium), which contains the largest halogenido pentelate anion reported to date. The optical properties of compounds featuring n=1–5 anions show a clear trend as well as an outlier, a low band gap of 1.72 eV for [Hpyz]4[Sb10I34], that can be well understood using quantum chemical investigations. Also using SbI3 and [H2NMe2]3[SbI6], a compound featuring a single octahedral [SbI6]3− unit, as limiting cases, we show that structure‐property relationships can be established in group 15 halogenido metalates in a similar way as in metal halide perovskites, thus providing a framework for understanding new and known compounds in this emerging class of materials. A family of five iodido antimonates with structurally very similar anions has been prepared, and the influence of the anion's size on the band gap and the presence of additional charge‐transfer effects was investigated.
ISSN:0947-6539
1521-3765
DOI:10.1002/chem.202202931