Redox Noninnocence of Carbene Ligands: Carbene Radicals in (Catalytic) C−C Bond Formation

Abstract: In this Forum contribution, we highlight the radical-type reactivities of one-electron-reduced Fischer-type carbenes. Carbene complexes of group 6 transition metals (Cr, Mo, and W) can be relatively easily reduced by an external reducing agent, leading to one-electron reduction of the carbene ligand moiety. This leads to the formation of "carbene-radical" ligands, showing typical radical-type reactivities. Fischer-type carbene ligands are thus clearly redox-active and can behave as so-called "redox noninnocent… Show more

“…The multiplicity of the signals could be attributed either to formation of several active species deriving from the 1/NBD interaction, to fasbo/esbo equilibria and/or concurrent metathetical reactions. Their broad unresolved nature may be due to paramagnetism of the active species [50], restricted rotation of the alkylidene ligand(s) and/or the existence of several species with nominally similar structural features and slightly differing environments, possibly isomeric alkylidene THF adducts of the type {"W x "(=CHP)(THF) y } (P = polymer chain; x, y = 1 or 2). Quenching the reaction mixture with benzaldehyde (1/NBD/PhCHO: 1/20/100) causes the disappearance of the high-field peaks.…”

Ring Opening Metathesis Polymerization of Norbornene and Derivatives by the Triply Bonded Ditungsten Complex Na[W2(µ-Cl)3Cl4(THF)2]·(THF)3

“…The multiplicity of the signals could be attributed either to formation of several active species deriving from the 1/NBD interaction, to fasbo/esbo equilibria and/or concurrent metathetical reactions. Their broad unresolved nature may be due to paramagnetism of the active species [50], restricted rotation of the alkylidene ligand(s) and/or the existence of several species with nominally similar structural features and slightly differing environments, possibly isomeric alkylidene THF adducts of the type {"W x "(=CHP)(THF) y } (P = polymer chain; x, y = 1 or 2). Quenching the reaction mixture with benzaldehyde (1/NBD/PhCHO: 1/20/100) causes the disappearance of the high-field peaks.…”

Ring Opening Metathesis Polymerization of Norbornene and Derivatives by the Triply Bonded Ditungsten Complex Na[W2(µ-Cl)3Cl4(THF)2]·(THF)3

“…While not intended to provide a comprehensive review on other metal-ligand radical complexes that do not exhibit slow magnetic relaxation, this article will nevertheless briefly survey classes of molecules that could potentially be exploited to realize new, metal-radical ligand singlemolecule magnets. For a more comprehensive account of other metal-radical ligand complexes, the reader is referred to broader and more inclusive review articles [9][10][11][12][13][14][15][16][17][18][19][20][21]. For the latest advances on single-molecule magnets, the reader is referred to some recent review articles [22][23][24][25][26][27][28][29][30].…”

Radical ligand-containing single-molecule magnets

“…The possibility of employing these complexes in C-C bond formation reactions is expected, as the LUMO of electrophilic Fischer carbene complexes is carbon-centred [2]. After one electron reduction, a carbene radical is formed on the carbene carbon atom [3]. This allows for possible catalytic synthetic organic transformations.…”

“…Y = 2-thienyl or 2-furyl [5], CH 3 [6], Ph [7], ferrocenyl [8]), (b) different heteroatom substituents (X = O vs N [5,6]) and (c) ligand-substitution on the metal (L = PPh 3 , P(OPh) 3 , dppe (1,2-bis(diphenylphosphino)ethane), the chelated product of ethylene diamine) [9] or  2 -N-allyl-Nallylamino [7]. In this study we focus on the influence of (d) [(CO) 5 W=C(OEt)Ar] with Ar = 2-thienyl (1) and (7); 2-furyl (2) and (8); 2-(N-methylpyrrolyl) (3); 2,2'-bithienyl (4), (10) and (11); 2,2'-thienylfuran (5); N-methyl-2-(2'-thienyl)pyrrole (6); N,N'-Dimethylpyrrolo [3,2-b]pyrrole (9) and terthienyl (12).…”

Fischer mono- and biscarbene complexes of tungsten with mono- and dimeric heteroaromatic substituents