Stack by Stack: From the Free Cyclopentadienylgermanium Cation Via Heterobimetallic Main‐Group Sandwiches to Main‐Group Sandwich Coordination Polymers

Media type: E-Article
Title: Stack by Stack: From the Free Cyclopentadienylgermanium Cation Via Heterobimetallic Main‐Group Sandwiches to Main‐Group Sandwich Coordination Polymers
Contributor: Schorpp, Marcel; Krossing, Ingo
Published: Wiley, 2020
Published in: Chemistry – A European Journal, 26 (2020) 62, Seite 14109-14117
Language: English
DOI: 10.1002/chem.202002932
ISSN: 0947-6539; 1521-3765
Origination:
Footnote:
Description: AbstractHeterobimetallic cationic sandwich complexes [M(μ‐Cp)M′Cp]+ of group 13 (M=Ga, In) and group 14 (M′=Ge, Sn) elements have been prepared as [WCA]− salts (WCA=Al(ORF)4; ORF=OC(CF3)3). Their molecular structures include free apical gallium or indium atoms. The sandwich complexes were formed in the reactions of [M(HMB)]+[WCA]− (HMB=C6Me6) with the free metallocenes [M′Cp2]. Their structures are related to known stannocene and stannocenium salts; the unprecedented germanium analogues, namely the free germanocenium cation [GeCp]+ and the corresponding triple‐decker complex cation [CpGe(μ‐Cp)GeCp]+, are described herein. By variation of the reaction conditions, these sandwich complexes can be transformed into the group 13/14 mixed cationic coordination polymer [{In(HMB)(μ‐SnCp2)}n][WCA]n. This polymeric chain motif was also successfully replicated by the synthesis of complexes [{Ga/In(HMB)(μ‐FeCp2)}n][WCA]n containing FeCp2 as a bridging ligand.

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