Iron(II), Cobalt(II), Nickel(II), and Zinc(II) Silylene Complexes: Reaction of the Silylene [iPrNC(NiPr₂)NiPr]₂Si with FeBr₂, CoBr₂, NiBr₂⋅MeOCH₂CH₂OMe, ZnCl₂, and ZnBr₂

Abstract: Reaction of the donor-stabilized silylene [iPrNC(NiPr )NiPr] Si (1) with FeBr , CoBr , NiBr ⋅MeOCH CH OMe, ZnCl , and ZnBr afforded the respective transition-metal silylene complexes 4-8, the formation of which can be described in terms of a Lewis acid/base reaction (4, 5, 7, 8) or a nucleophilic substitution reaction (6). However, the reactivity profile of silylene 1 is not only based on its strong Lewis base character; the different coordination modes of the two guanidinato ligands (4-6 vs. 7 and 8) add an a… Show more

“…However, in recent years, attention has shifted to silicon compounds, where the formal oxidation state of silicon is +2, popularly known as silylenes . Examples of carbonyl-free silylene complexes of 3d transition metals in the formal oxidation state +2 are now too frequent to be comprehensively listed, thanks to extensive investigations by the groups of H. Roesky, P. Roesky, Stalke, Driess, Tacke, Inoue, Khan, and many others. − The coverage of the s and p blocks is also expanding and is supplemented by examples of bonding to s-/p-block Lewis acids such as boron, aluminum, calcium, germanium, tin, and lead . However, when it comes to indium, there has only been one reaction reported between a Si­(II) compound and an indium derivative.…”

Access to Silicon(II)– and Germanium(II)–Indium Compounds

“…However, in recent years, attention has shifted to silicon compounds, where the formal oxidation state of silicon is +2, popularly known as silylenes . Examples of carbonyl-free silylene complexes of 3d transition metals in the formal oxidation state +2 are now too frequent to be comprehensively listed, thanks to extensive investigations by the groups of H. Roesky, P. Roesky, Stalke, Driess, Tacke, Inoue, Khan, and many others. − The coverage of the s and p blocks is also expanding and is supplemented by examples of bonding to s-/p-block Lewis acids such as boron, aluminum, calcium, germanium, tin, and lead . However, when it comes to indium, there has only been one reaction reported between a Si­(II) compound and an indium derivative.…”

Access to Silicon(II)– and Germanium(II)–Indium Compounds

“…Silylenes are known for their ability to bind to, among others, low-valent transition metal complexes. 6,20,28,41,[50][51][52][53][54][55][56] For this purpose, compound 1 was treated with group 9 dimers [RhCl Compound 6 crystallizes in the monoclinic space group P2 1 / n with one molecule in the asymmetric unit (Fig. 6).…”

A cyclopentadienyl functionalized silylene – a flexible ligand for Si- and C-coordination

“…The group of P. Roesky reported the first silylene‐zinc complexes, [ZnCl( η 2 ‐C 5 Me 5 ){Si(PhC(N t Bu) 2 )(C 5 Me 5 )}], [Zn 2 ( μ‐ Cl) 2 Ph 2 {Si(PhC(N t Bu) 2 )Ph} 2 ] and [ZnCl 2 {Si(PhC(N t Bu) 2 )Et} 2 ] (Chart 1), using PhC(N t Bu) 2 SiCl . Subsequently, the same group as well as the group of Tacke reported few more examples of silylene‐zinc complexes using PhC(N t Bu) 2 Si( η 5 ‐C 5 Me 5 ) and [ i PrNC(N i Pr 2 )N i Pr] 2 Si as ligands. In our part, we have showed that amido silylene, [PhC(N t Bu) 2 SiN(SiMe 3 ) 2 ] forms both monomeric [PhC(N t Bu) 2 Si{N(SiMe 3 ) 2 }→ZnI 2 ]⋅THF and dimeric [{PhC(N t Bu) 2 }(N(SiMe 3 ) 2 )SiZnI( μ ‐I)] 2 adducts upon reaction with ZnI 2 and these adducts are interconvertible simply by changing the solvents …”

Amidinato Germylene‐Zinc Complexes: Synthesis, Bonding, and Reactivity