Themed collection The Carbon–Metal Bond and C–H Metalation

Fundamental reactions of C–Al bonds in Ziegler's nobel research, alumination, carboalumination and hydroalumination, involve attack by tricoordinate aluminum electrophiles.

Reacting (PNP)TiCH^tBu(CH₂^tBu) with 2,2′-bipyridine (bipy) in cyclohexane or heptane results in dehydrogenation of the solvent, cleanly producing cyclohexene and 1-heptene, respectively, and a Ti^II intermediate that is trapped by bipy.

A number of zinc calixarene complexes have been structurally characterized and screened for the ROP of ε-caprolactone and rac-lactide.

Oxidative addition of the strained biphenylene C–C bond proceeds via a transition state wherein the biphenylene unit is severely “tilted”.

The electrode-surface C–H activation and metalation of 2,3-dimethyl-1,4-dihydroxybenzene on Pd was investigated by electrochemistry, electron spectroscopy, and density functional theory. At high concentrations, formation of a (5,6-η)-o-phenylene organopalladium surface compound was indicated.

While neither the bridgehead group (R) nor remote ring Me-groups have any impact on metal coordination of tris(2-pyridyl) aluminate ligands [RAl(2-py′)₃]⁻, Me groups adjacent to the donor pyridyl-N atoms have a large effect on their ability to form sandwich arrangements.

A tridentate, NNC-tb (where NNC-tb = 2-(pyridin-2-yl)benzo[h]quinoline) ligated Ir^III complex (NNC-tb)Ir(Ph)(4-MePy)(TFA), 11 along with analogues are very active for CH activation as evidenced by rapid catalytic H/D exchange between benzene and trifluoroacetic acid – d₁ (DTFA).

Copper-catalyzed hydrophosphinations of styrenyl systems in water, at room temperature is herein reported, enabled by our ‘designer’ surfactant TPGS-750-M.

Inductively the Pt-moiety in these organometallic benzylidene anilines is a very strong electron-withdrawing group, but mesomerically a very strong electron-donating group.

Two alkyl and aryl substituted five-membered zirconacycloallenoids underwent a typical σ-alkyl metallocene reaction with B(C₆F₅)₃, namely cleavage of the Zr–C(sp³) bond with formation of zwitterionic (η²-allenyl)zirconium/alkylborate products.

Chemical conversions of a cycloheptatriene iridium pincer complex were studied by NMR and MS techniques as well as DFT calculations.

The hemilability of the pyridyl groups of (^tBuP(O)N)PtMe₂ and (^tBuP(N–H)N)PtMe₂ allows rollover cyclometalation to occur. In the case of (^tBuP(N–H)N)PtMe₂ intermolecular benzene C–H(D) activation is also competitive.

A novel yttrium complex [L_nY(CH₂SiMe₃)₂] is resistant to cyclometalation, while samarium variants undergo C–H activation, forming unique cyclometalated motifs.

Manganese carbonyls are ligated by pyridine/thioether Schiff base (NNS) ligands. Coordination of the thioether-S donor to the Mn(I) center is determined by subtle steric changes at the ligand periphery.

Ligand C–H activation leads to formation of a cyclometallated Ta(V) hydride complex, which can act as a Ta(III) synthon.