Litcius/Paper detail

Phosphine-Stabilized Germylidenylpnictinidenes as Synthetic Equivalents of Heavier Nitrile and Isocyanide in Cycloaddition Reactions with Alkynes

Yuhao He, Chenshu Dai, Dongmin Wang, Jun Zhu, Gengwen Tan

2022Journal of the American Chemical Society54 citationsDOI

Abstract

The reactions of chlorogermylene MsFluindtBu-GeCl 1, supported by a sterically encumbered hydrindacene ligand MsFluindtBu, with NaPCO(dioxane)2.5 and NaAsCO(18-c-6) in the presence of trimethylphosphine afforded trimethylphosphine-stabilized germylidenyl-phosphinidene 2 and -arsinidene 3, respectively. Structural and computational investigations reveal that the Ge–E′ bond (E′ = P and As) features a multiple-bond character. 2 and 3 exhibit diverse reactivity toward trimethylsilylacetylene and 4-tetrabutylphenylacetylene. Specifically, 2 underwent cycloadditions with both alkynes affording the first six-membered aromatic phosphagermabenzen-1-ylidenes 4 and 5, respectively, through the heavier isocyanide intermediate MsFluindtBu-PGe. In contrast, 3 could serve as a synthetic equivalent of heavier isocyanides and nitriles when treated with trimethylsilylacetylene and 4-tetrabutylphenylacetylene yielding arsagermene 6 and arsolylgermylene 7, respectively. The reaction mechanisms for the cycloadditions were investigated through density functional theory calculations. The reactivity studies highlight the potential of 2 and 3 in accessing heavy main-group element-containing heterocycles.

Topics & Concepts

ChemistryIsocyanideReactivity (psychology)TrimethylphosphineCycloadditionNitrileSteric effectsMedicinal chemistryPhosphineReductive eliminationStereochemistryOrganic chemistryMoleculeCatalysisAlternative medicineMedicinePathologySynthesis and characterization of novel inorganic/organometallic compoundsOrganometallic Complex Synthesis and CatalysisCoordination Chemistry and Organometallics