Cobalt—boron bonds

Bonding Agents. These materials are generally only used in wire cable coat compounds. They are basically organic complexes of cobalt and cobalt—boron. In wire coat compounds they are used at very low levels of active cobalt to aid in the copper sulfide complex formation that is the primary adherance stmcture. The copper sulfide stmcture builds up at the brass mbber interface through copper in the brass and sulfur from the compound. The dendrites of copper sulfide formed entrap the polymer chains before the compound is vulcanized thus hoi ding the mbber firmly to the wire. 

The cobalt(I) complex CoBr(PPh3)3 as a boron trifluoride etherate selectively hydrogenates conjugated dienes to monoenes via an unusual 1,2-hydrogen addition at the more-substituted double bond (186). 

Triazoles have been used extensively in analytical chemistry. Nitron (182) has been used for the determination of boron, rhenium, and tungsten. Nitron has been bonded to a polymer and used for the removal of nitrate from water <79Mi 402-oi >. Other triazoles have been used for the spectrophoto-metric assay of cobalt, rhodium, and platinum <68Mi 402-01,72ZAK2209). Hydroxyphenylazotriazoles form brilliant lakes with a number of metal ions <73AJC1585>. 5-" C-3-Diazotriazole couples only to tryptophane below pH 6.8 and can used for the specific determination of tryptophane in proteins <84M1 402-02). 

C-M bond addition, for C-C bond formation, 10, 403-491 iridium additions, 10, 456 nickel additions, 10, 463 niobium additions, 10, 427 osmium additions, 10, 445 palladium additions, 10, 468 rhodium additions, 10, 455 ruthenium additions, 10, 444 Sc and Y additions, 10, 405 tantalum additions, 10, 429 titanium additions, 10, 421 vanadium additions, 10, 426 zirconium additions, 10, 424 Carbon-oxygen bond formation via alkyne hydration, 10, 678 for aryl and alkenyl ethers, 10, 650 via cobalt-mediated propargylic etherification, 10, 665 Cu-mediated, with borons, 9, 219 cycloetherification, 10, 673 etherification, 10, 669, 10, 685 via hydro- and alkylative alkoxylation, 10, 683 via inter- andd intramolecular hydroalkoxylation, 10, 672 via metal vinylidenes, 10, 676 via SnI and S Z processes, 10, 684 via transition metal rc-arene complexes, 10, 685 via transition metal-mediated etherification, overview,... 

A single-crystal X-ray structural determination of Co(C5HsBMe)2 (Figure 15) revealed a planar sandwich where the cobalt atom is displaced towards C(4)by 0.28 A. The Co-B distance of2.283(5) A is considered a bonding distance. The upheld shift of the "B NMR signal and the diminished nucleophilicity of the boron atom are consistent with this interpretation. 

The Nicholas reaction was used to synthesize the p-lactam precursor of thienamycin in the laboratory of P.A. Jacobi and thereby accomplish its formal total synthesis. The necessary p-amino acid was prepared by the condensation of a boron enolate (derived from an acylated oxazolidinone) with the cobalt complex of an enantiopure propargylic ether. The resulting adduct was oxidized with ceric ammonium nitrate (CAN) to remove the cobalt protecting group from the triple bond, and the product was obtained with a 17 1 anti.syn selectivity and in good yield. 

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