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A Mechanistic Study on Reactions of Group 13 Diyls LM with Cp*SbX<sub>2</sub>: From Stibanyl Radicals to Antimony Hydrides

Christoph Helling, Christoph Wölper, George E. Cutsail, Gebhard Haberhauer, Stephan Schulz

2020Chemistry - A European Journal41 citationsDOIOpen Access PDF

Abstract

Abstract Oxidative addition of Cp*SbX 2 (X=Cl, Br, I; Cp*=C 5 Me 5 ) to group 13 diyls LM (M=Al, Ga, In; L=HC[C(Me)N (Dip)] 2 , Dip=2,6‐ i Pr 2 C 6 H 3 ) yields elemental antimony (M=Al) or the corresponding stibanylgallanes [L(X)Ga]Sb(X)Cp* (X=Br 1 , I 2 ) and ‐indanes [L(X)In]Sb(X)Cp* (X=Cl 5 , Br 6 , I 7 ). 1 and 2 react with a second equivalent of LGa to eliminate decamethyl‐1,1’‐dihydrofulvalene (Cp* 2 ) and form stibanyl radicals [L(X)Ga] 2 Sb . (X=Br 3 , I 4 ), whereas analogous reactions of 5 and 6 with LIn selectively yield stibanes [L(X)In] 2 SbH (X=Cl 8 , Br 9 ) by elimination of 1,2,3,4‐tetramethylfulvene. The reactions are proposed to proceed via formation of [L(X)M] 2 SbCp* as reaction intermediate, which is supported by the isolation of [L(Cl)Ga] 2 SbCp ( 11 , Cp=C 5 H 5 ). The reaction mechanism was further studied by computational calculations using two different models. The energy values for the Ga‐ and the In‐substituted model systems showing methyl groups instead of the very bulky Dip units are very similar, and in both cases the same products are expected. Homolytic Sb−C bond cleavage yields van der Waals complexes from the as‐formed radicals ([L(Cl)M] 2 Sb . and Cp* . ), which can be stabilized by hydrogen atom abstraction to give the corresponding hydrides, whereas the direct formation of Sb hydrides starting from [L(Cl)M] 2 SbCp* via concerted β‐H elimination is unlikely. The consideration of the bulky Dip units reveals that the amount of the steric overload in the intermediate I determines the product formation (radical vs. hydride).

Topics & Concepts

ChemistryRadicalHomolysisAntimonyHydrogen atom abstractionHydrideBond cleavagevan der Waals forceYield (engineering)Medicinal chemistryCrystallographyStereochemistryMetalMoleculeInorganic chemistryCatalysisOrganic chemistryMetallurgyMaterials scienceSynthesis and characterization of novel inorganic/organometallic compoundsOrganometallic Complex Synthesis and CatalysisInorganic Fluorides and Related Compounds
A Mechanistic Study on Reactions of Group 13 Diyls LM with Cp*SbX<sub>2</sub>: From Stibanyl Radicals to Antimony Hydrides | Litcius