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Hydrazones metal complexes

According to a detailed mechanistic study, the first step is the abstraction of the relatively acidic hydrazone proton (93- 97). This is followed by hydride attack on the trigonal carbon of the C=N bond, mainly from the a-side at C-3, together with the concomitant loss of the tosylate anion (97 -> 98). Expulsion of nitrogen from the resulting intermediate (98) yields a fairly insoluble anion-metal complex (99) which upon decomposition with water provides the methylene derivative (100). [Pg.174]

In contrast with aminoazole ligands, hydrazones of azoles adopt the imino form in their metal complexes 360 [X = O (93ZNK863), X = S (91MC110)]. [Pg.288]

There are two main factors to consider in order to understand the bonding and structures of metal complex azo colorants, namely (i) azo/hydrazone tautomerism and (ii) the nature of the azo-to-metal bonding. [Pg.552]

Dyes based on 4-phenylazo-l-naphthol (6) have been used extensively to study azo/hydrazone tautomerism since they exist as an equilibrium mixture of both the azo and hydrazone tautomers.8 However, they are of little use commercially and of no use whatsoever for metal complex azo dyes since the hydroxy group is not ortho to the azo group so these cannot act as chelating ligands. [Pg.552]

The l-phenylazo-2-naphthol (7) and particularly the 2-phenylazo-l-naphthol (8) systems are used extensively, providing many of the commercial metal complex azo colorants. Azo pigments are derived from (7) whilst azo dyes are obtained from (8). Both these types of colorant exist predominantly, if not exclusively, in the hydrazone tautomeric form.8,9... [Pg.552]

Dyes (11) from azophenols exist totally in the azo form8 whereas dyes (12) from heterocyclic couplers such as pyrazolones8,11 and acyclic couplers such as acetoacetanilides8 12 (13) exist totally in the hydrazone form. Dyes (14) derived from amino couplers exist in the azo form.8 However, as described above, all these dyes will exist predominantly in the azo form in the derived metal complexes. [Pg.553]

Transition Metal Complexes with Bis(Hydrazone) Ligands of 2, 6-Diacetylpyridine. Hepta-Coordination of 3d Metals... [Pg.653]

TRANSITION METAL COMPLEXES WITH BIS(HYDRAZONE) LIGANDS OF 2,6-DIACETYLPYRIDINE. HEPTA-COORDINATION OF 3d METALS... [Pg.315]

A mechanism which is consistent with the various experimental results for olefin formation involves the initial abstraction of the hydrazone proton (103 - 106)82 In this case, however, expulsion of the tosylate anion is associated with the abstraction of a second hydrogen from C-16 instead of hydride attack on the C=N bond (compare 97 - 98 and 106 - 107). Expulsion of nitrogen from the resulting intermediate (107) yields an anion (108) which is most probably stabilized in the form of a metal complex and can be readily decomposed by water to give an olefin (109). This implies that 17-d1-androst-16-ene (104) can be prepared by using deuterium oxide as the sole deuterated reagent.82... [Pg.97]

Figure 6-13. The templated formation of a hydrazone macrocycle. This ligand contains five nitrogen donor atoms and was designed to investigate the properties of metal complexes containing a pentagonal planar donor set. In practice, the complexes of these ligands usually acquire one or two axial ligands to give six- or seven-co-ordinate complexes. Figure 6-13. The templated formation of a hydrazone macrocycle. This ligand contains five nitrogen donor atoms and was designed to investigate the properties of metal complexes containing a pentagonal planar donor set. In practice, the complexes of these ligands usually acquire one or two axial ligands to give six- or seven-co-ordinate complexes.
From the viewpoint of stereochemistry the most interesting metal complexes are the octahedrally coordinated 1 2 chromium and cobalt complex dyes, which are medially metallized azo and azomethine compounds with functional groups in the o- and o -positions. Three types of isomerism can be discriminated geometrical, N-a, 3, and that arising from azo-hydrazone tautomerism. [Pg.94]

Metal-Complex (Formazan) Dyes. The hydrazone from 2-carboxyphenylhydra-zine-4-sulfonic acid and benzaldehyde is suspended in water and then dissolved by adding aqueous sodium hydroxide to obtain pH 6.5 -7.0. This solution is added to the aqueous diazonium salt solution obtained from a typical aqueous diazotiza-tion of 4-(2-sulfooxyethylsulfonyl)-2-aminophenyl-6-sulfonic acid. The mixture is then dripped into an aqueous solution of copper sulfate, while the pH is maintained with soda at 5.5 - 6.5. After complete coupling the pH is adjusted to 1 with concentrated hydrochloric acid. The strongly acidic solution is then neutralized with alkali to pH 5.5. The copper - formazan complex is salted out along with sodium chloride, filtered, washed with dilute aqueous sodium chloride solution, and dried. A dark powder results which gives a dark blue solution in water. It consists of an electrolyte-containing powdered sodium salt of the acid 25 ... [Pg.123]

Diazaphospholes 4 and 5 are colorless to pale yellow distillable liquids or crystalline solids that are stable to oxidation by air and do not react with elemental sulfur. They are readily hydrolyzed to give the hydrazone from which they originate and phosphorus acid. While only a few reactions of 1/7-1,2,3-diazaphospholes 4 are reported, the chemistry of the 2//-isomers 5 is well studied. In CHEC-II(1996), the following reactions of 1,2,3-diazaphos-pholes are described in detail N-protonation and alkylation, polar addition to the P=C bond and substitution at C-4, cycloaddition reactions, substituent reactions, and the formation of transition metal complexes <1996CHEC-II(4)771>. [Pg.589]

Isatin, due to its cis a-dicarbonyl moiety, is a potentially good substrate for the synthesis of metal complexes, either alone or with other ligands. Their derivatives, mostly those substituted at C-3, such as isatin-3-hydrazones and isatin-3-imines bearing an extra heteroaromatic ring are also generally employed as ligands. In this manner, Schiff bases... [Pg.97]

The predictive value of Cram s rule notwithstanding, the rationale was speculative, and as spectroscopic methods developed, it was called into question. For example, Karabatsos studied the conformations of substituted aldehydes [8] and dimethylhydrazones [9] by NMR, and concluded that one of the ligands at the a position eclipses the carbonyl. It was felt that in the addition reaction, the organometallic probably did coordinate to the carbonyl oxygen as Cram had suggested, and Karabatsos used the conformations of the dimethylhydrazone as a model for the metal-coordinated carbonyl. He concluded that since the aldehyde and the hydrazone have similar conformations, so should the metal-complexed carbonyl... [Pg.122]

Transition Metal Complexes with Bis(Hydrazone) Ligands of... [Pg.289]

See other pages where Hydrazones metal complexes is mentioned: [Pg.394]    [Pg.43]    [Pg.83]    [Pg.97]    [Pg.43]    [Pg.83]    [Pg.451]    [Pg.451]    [Pg.1727]    [Pg.6188]    [Pg.6228]    [Pg.7181]    [Pg.7196]    [Pg.366]    [Pg.381]   
See also in sourсe #XX -- [ Pg.83 ]

See also in sourсe #XX -- [ Pg.83 ]

See also in sourсe #XX -- [ Pg.6 , Pg.83 ]



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