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Complexes with cobalt compounds

Prepa.ra.tlon, There are several methods described in the Hterature using various cobalt catalysts to prepare syndiotactic polybutadiene (29—41). Many of these methods have been experimentally verified others, for example, soluble organoaluminum compounds with cobalt compounds, are difficult to reproduce (30). A cobalt compound coupled with triphenylphosphine aluminum alkyls water complex was reported byJapan Synthetic Rubber Co., Ltd. (fSR) to give a low melting point (T = 75-90° C), low crystallinity (20—30%) syndiotactic polybutadiene (32). This polymer is commercially available. [Pg.530]

Forms a number of coordination compounds (ammonia complex) with several metals adds to AgCl forming soluble complex [Ag(NH3)2]Cl forms tetraamine complex [Cu(NH3)4]S04 with CUSO4 and forms many hexaamine complexes with cobalt, chromium, palladium, platinum and other metals. [Pg.23]

The chlorides of the other polyhasic ammine complexes with cobalt described in (II) may easily be prepared in solution by a similar procedure, but only the ethylenedi-amine compound can be directly isolated as a solid. The other chlorides must be made indirectly from the nitrates, bromides, or iodides of the respective series,... [Pg.187]

Alkenylboron compounds cyclopropanations, 9, 181 haloetherification, 9, 182 hydrogenation and epoxidation, 9, 182 metal-catalyzed reactions, 9, 183 metallic reagent additions, 9, 182 via radical addition reactions, 9, 183 5-Alkenylboron compounds, cross-coupling reactions, 9, 208 Alkenyl complexes with cobalt, 7, 51 with copper, 2, 160, 2, 174 with Cp Re(CO) (alkene)3 , 5, 915-916 with dicarbonyl(cyclopentadienyl)hydridoirons, 6, 175 with gold, 2, 255... [Pg.44]

Several sandwich complexes with cobalt have been described <83CB95l, 83ZN(B)485>. Structurally they differ from the iron compounds only by a slight shift of the cobalt atoms from the ring centers... [Pg.759]

Polymeric cobalt(ii) compounds of (87) and (88) have been isolated and their properties compared with those of the monomeric analogues of the ligands (89) and (90). The ligand (91) forms a five-co-ordinate complex with cobalt(ii), one of the ethereal oxygen atoms remaining unco-ordinated. ... [Pg.249]

Cobalt compounds have been in use for centuries, notably as pigments ( cobalt blue ) in glass and porcelain (a double silicate of cobalt and potassium) the metal itself has been produced on an industrial scale only during the twentieth century. Cobalt is relatively uncommon but widely distributed it occurs biologically in vitamin B12 (a complex of cobalt(III) in which the cobalt is bonded octahedrally to nitrogen atoms and the carbon atom of a CN group). In its ores, it is usually in combination with sulphur or arsenic, and other metals, notably copper and silver, are often present. Extraction is carried out by a process essentially similar to that used for iron, but is complicate because of the need to remove arsenic and other metals. [Pg.401]

Hydantoin itself can be detected ia small concentrations ia the presence of other NH-containing compounds by paper chromatography followed by detection with a mercury acetate—diphenylcarba2one spray reagent. A variety of analytical reactions has been developed for 5,5-disubstituted hydantoias, due to their medicinal iaterest. These reactions are best exemplified by reference to the assays used for 5,5-diphenylhydantoiQ (73—78), most of which are based on their cycHc ureide stmcture. Identity tests iaclude the foUowiag (/) the Zwikker reaction, consisting of the formation of a colored complex on treatment with cobalt(II) salts ia the presence of an amine (2) formation of colored copper complexes and (3) precipitation on addition of silver(I) species, due to formation of iasoluble salts at N. ... [Pg.255]

Despite the weak basicity of isoxazoles, complexes of the parent methyl and phenyl derivatives with numerous metal ions such as copper, zinc, cobalt, etc. have been described (79AHC(25) 147). Many transition metal cations form complexes with Imidazoles the coordination number is four to six (70AHC(12)103). The chemistry of pyrazole complexes has been especially well studied and coordination compounds are known with thlazoles and 1,2,4-triazoles. Tetrazole anions also form good ligands for heavy metals (77AHC(21)323). [Pg.51]

There is also clear evidence of a change from predominantly class-a to class-b metal charactristics (p. 909) in passing down this group. Whereas cobalt(III) forms few complexes with the heavier donor atoms of Groups 15 and 16, rhodium(III), and more especially iridium (III), coordinate readily with P-, As- and S-donor ligands. Compounds with Se- and even Te- are also known. Thus infrared. X-ray and nmr studies show that, in complexes such as [Co(NH3)4(NCS)2]" ", the NCS acts as an A -donor ligand, whereas in [M(SCN)6] (M = Rh, Ir) it is an 5-donor. Likewise in the hexahalogeno complex anions, [MX ] ", cobalt forms only that with fluoride, whereas rhodium forms them with all the halides except iodide, and iridium forms them with all except fluoride. [Pg.1129]

The 1,1-dithio complexes of cobalt have been studied extensively (1). Most of the literature is concerned with Co(III) compounds, as the complexes with divalent cobalt are extremely air-sensitive and have only been synthesized in acidic solution under rigorously deoxygenated conditions. The recent complexes of cobalt with 1,1-dithio ligands are listed in Table III, together with some of their physical properties. [Pg.248]

A similar mixed complex with Mn and Co is obtained by reacting the triple-decked cobalt compound XVII with hlnjCCO), ... [Pg.76]


See other pages where Complexes with cobalt compounds is mentioned: [Pg.531]    [Pg.117]    [Pg.26]    [Pg.50]    [Pg.271]    [Pg.308]    [Pg.598]    [Pg.308]    [Pg.201]    [Pg.3]    [Pg.168]    [Pg.22]    [Pg.275]    [Pg.366]    [Pg.52]    [Pg.182]    [Pg.739]    [Pg.874]    [Pg.121]    [Pg.109]    [Pg.4]    [Pg.252]    [Pg.252]    [Pg.35]    [Pg.1037]    [Pg.85]    [Pg.86]    [Pg.135]    [Pg.332]    [Pg.334]    [Pg.341]    [Pg.342]    [Pg.346]    [Pg.43]   
See also in sourсe #XX -- [ Pg.67 ]

See also in sourсe #XX -- [ Pg.67 ]




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Cobalt complex compounds

Cobalt complex compounds with 1-phenylbiguanide

Cobalt complex compounds with biguanide and its derivatives

Cobalt complex compounds with biguanide and its derivatives, structure

Cobalt complex compounds with ethylenediamminetetraacetatic acid

Cobalt complex compounds with glycine

Cobalt complex compounds with propylenediamine

Cobalt complex compounds with pyridine

Cobalt complex compounds with tetraethylenepentamine

Cobalt complex compounds, anions with pyridine

Cobalt complexes, with

Cobalt compounds

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