Arsenic-Rich Polyarsenides Stabilized by Cp*Fe Fragments.
Angew Chem Int Ed Engl
; 56(25): 7307-7311, 2017 06 12.
Article
em En
| MEDLINE
| ID: mdl-28508464
ABSTRACT
The redox chemistry of [Cp*Fe(η5 -As5 )] (1, Cp*=η5 -C5 Me5 ) has been investigated by cyclic voltammetry, revealing a redox behavior similar to that of its lighter congener [Cp*Fe(η5 -P5 )]. However, the subsequent chemical reduction of 1 by KH led to the formation of a mixture of novel Asn scaffolds with n up to 18 that are stabilized only by [Cp*Fe] fragments. These include the arsenic-poor triple-decker complex [K(dme)2 ][{Cp*Fe(µ,η22 -As2 )}2 ] (2) and the arsenic-rich complexes [K(dme)3 ]2 [(Cp*Fe)2 (µ,η44 -As10 )] (3), [K(dme)2 ]2 [(Cp*Fe)2 (µ,η2222 -As14 )] (4), and [K(dme)3 ]2 [(Cp*Fe)4 (µ4 ,η4332211 -As18 )] (5). Compound 4 and the polyarsenide complex 5 are the largest anionic Asn ligand complexes reported thus far. Complexes 2-5 were characterized by single-crystal X-ray diffraction, 1 Hâ
NMR spectroscopy, EPR spectroscopy (2), and mass spectrometry. Furthermore, DFT calculations showed that the intermediate [Cp*Fe(η5 -As5 )]- , which is presumably formed first, undergoes fast dimerization to the dianion [(Cp*Fe)2 (µ,η44 -As10 )]2- .
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2017
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Article