Isolation and Characterization, Including by X-ray Crystallography, of Contact and Solvent-Separated Ion Pairs of Silenyl Lithium Species

Synthesis of Genuine Germenyl Lithiums and the First Persistent Germenyl Radicals

The first isolated genuine germenyl lithiums (R3 Si)(1-Ad)C=Ge(SiMetBu2 )(Li⋅2 L) (R3 Si=tBu2 MeSi, L=THF (1 a), or L=12-crown-4 (1 b) and R3 Si=tBuMe2 Si, L=THF (2 a), or L=12-crown-4 (2 b)), were synthesized by reaction of the corresponding acyl germanes 3 and 4, respectively, with tBu2 MeSiLi in THF at 70 °C. The novel 1 a and 2 b were characterized by NMR and UV/Vis spectroscopy, and also by X-ray crystallography (r(C=Ge)=1.865 Å for 1 a and 1.877 Å for 2 b). Nucleophilic addition reaction of 1 a with MeI and a C-H insertion reactions to the C=Ge bond of 1 a, 2 a and 2 b, are reported. Oxidation of 1 a and 2 b (toluene, 230 K) produces the first persistent germenyl radicals (R3 Si)(1-Ad)C=Ge⋅-(SiMetBu2 ) (R3 Si=tBu2 MeSi (13 a), R3 Si=tBuMe2 Si (13 b)), which were characterized by EPR spectroscopy (t1/2 ≈30 min at 230 K, g=2.029, aav (73 Ge) is 55.0G for 13 a and 60.2G for 13 b). The experimental EPR parameters and DFT calculations indicate that 13 a and 13 b have a strongly bent structure at Ge (calc. ∡(C=Ge-Si)=136.7° (13 a), 135.9° (13 b)), and that the unpaired electron has a substantial s-character.

Activation of CO Using a 1,2-Disilylene: Facile Synthesis of an Abnormal N-Heterocyclic Silylene

Reaction of the 1,2-disilylene, [{ArC(NDip)₂ }Si]₂ 1 (Dip=2,6-diisopropylphenyl, Ar=4-C₆ H₄ Bu^t ), with CO proceeds via insertion of CO into one Si-N bond, and Si-Si bond cleavage, to cleanly give the bis(silylene), {ArC(NDip)₂ }Si(:)O C S i ( : ) ( N D i p )​ 2 C ‾ Ar 2, under ambient conditions. The reaction can be partially reversed when solutions of 2 are subjected to UV irradiation. The five-membered heterocyclic fragment of 2 represents the first silicon analogue of an "abnormal" N-heterocyclic carbene (aNHC), a view which is substantiated by a computational analysis of the compound. Reaction of 2 with [Mo(CO)₆ ] under UV light affords the chelate complex, [Mo(CO)₄ (κ² -Si,Si-2)] 3, while reaction with [Fe(CO)₅ ] gives the unusual silyleneyl bridged complex, [{Fe₂ (CO)₆ }{μ-Si[(NDip)₂ CAr]}₂ ] 4. The same coordination complexes can be accessed by reaction of 1 with [Mo(CO)₆ ] or [Fe(CO)₅ ] under UV light. As is the case for aNHCs, d-block metal complexes of bis(silylene) 2 could prove useful as bespoke catalysts for organic transformations.

A Mixed Heavier Si=Ge Analogue of a Vinyl Anion

The versatile reactivities of disilenides and digermenide, heavier analogues of vinyl anions, have significantly expanded the pool of silicon and germanium compounds with various unexpected structural motifs in the past two decades. We now report the synthesis and isolation of a cyclic heteronuclear vinyl anion analogue with a Si=Ge bond, potassium silagermenide as stable thf-solvate and 18-c-6 solvate by the KC8 reduction of germylene or digermene precursors. Its suitability as synthon for the synthesis of functional silagermenes is proven by the reactions with chlorosilane and chlorophospane to yield the corresponding silyl- and phosphanyl-silagermenes. X-ray crystallographic analysis, UV/Vis spectroscopy and DFT calculations revealed a significant degree of π-conjugation between N=C and Si=Ge double bonds in the title compound.

The Reactions of Carbon Monoxide with Silyl and Silenyl Lithium - Synthesis and Isolation of the First Stable Tetra-Silyl Di-Ketyl Biradical and 1-Silaallenolate Lithium

Reactions of carbon monoxide (CO) with tBu₂ MeSiLi and (E)-(tBu₂ MeSi)(tBuMe₂ Si)C=Si(SiMetBu₂ )Li⋅2 THF (4) were studied both experimentally and computationally. Reaction of tBu₂ MeSiLi with CO in hexane yields the first stable tetra-silyl di-ketyl biradical [(tBu₂ MeSi)₂ COLi]^. ₂ (3). Reaction of 4 with CO yields selectively and quantitatively the first reported 1-silaallenolate, (tBu₂ MeSi)(tBuMe₂ Si)C=C=Si(SiMetBu₂ )OLi⋅THF (5). Both 3 and 5 were characterized by X-ray crystallography and biradical 3 also by EPR spectroscopy. Silaallenolate 5 reacts with Me₃ SiCl to produce siloxy substituted 1-silaallene (tBu₂ MeSi)(tBuMe₂ Si)C=C=Si(SiMetBu₂ )OSiMe₃ . The reaction of 4 with CO provides a new route to 1-silaallenes. The mechanisms of the reactions of tBuMe₂ SiLi and of 4 with CO were studied by DFT calculations.

Generation and EPR Spectroscopy of the First Silenyl Radicals, R2 C=Si. -R: Experiment and Theory

The first two persistent silenyl radicals (R₂ C=Si^. -R), with a half-life (t_1/2 ) of about 30 min, were generated and characterized by electron paramagnetic resonance (EPR) spectroscopy. The large hyperfine coupling constants (hfccs) (a(²⁹ Si_α )=137.5-148.0 G) indicate that the unpaired electron has substantial s character. DFT calculations, which are in good agreement with the experimentally observed hfccs, predict a strongly bent structure (∡C=Si-R=134.7-140.7°). In contrast, the analogous vinyl radical, R₂ C=C^. -R (t_1/2 ≈3 h), exhibits a small hfcc (a(¹³ C_α )=26.6 G) and has a nearly linear geometry (∡C=C-R=168.7°).