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Salicylic acid complex

Discussion. Salicylic acid and iron(III) ions form a deep-coloured complex with a maximum absorption at about 525 nm this complex is used as the basis for the photometric titration of iron(III) ion with standard EDTA solution. At a pH of ca 2.4 the EDTA-iron complex is much more stable (higher stability constant) than the iron-salicylic acid complex. In the titration of an iron-salicylic acid solution with EDTA the iron-salicylic acid colour will therefore gradually disappear as the end point is approached. The spectrophotometric end point at 525 nm is very sharp. [Pg.725]

A number of nickel complexes have been shown to possess fungicidal activity. Salicylic acid complexes of the type Ni(salicylate)2(amine)2 have been tested on a range of fungi. They were active quite generally and in many cases the amine complexes were more active than... [Pg.1021]

Hydroxyglutaric acid forms a ternary anionic complex with Fe and The complexes TiCl2L2 (L = ethyl-4-nitrobenzoylpyruvate, ethyl-4-phenylbenzoyl-pyruvate, ethyl-2,4-dimethoxybenzoylpyruvate, or ethyl-2-naphthylpyruvate) have been prepared.There has been a spectroscopic study of complex formation in the Ti -salicylate-aa-bipyridyl system,and a reinvestigation of the reaction between Ti and salicylic acid in concentrated sulphuric acid. The coloured TiO salicylic acid complex formed in the latter system is formulated as a 7t-compIex rather than a chelate. [Pg.18]

The concentration of iron(III) in solution can also be obtained by titration with EDTA. However, in this case salicylic acid is also added to the titration cell. Iron(III) forms a strongly colored complex with salicylic acid however, the iron-EDTA complex has a much higher stability constant. As the titration is carried out, there is a very sharp disappearance of color at the end-point as the iron-EDTA complex replaces the iron-salicylic acid complex. This titration can be followed photometrically at 525 nm and produces a plot similar to Figure lA. [Pg.4867]

Fig. 1 (a),(b) The structure of 3 CyD aspirin complex (1) and (2), viewed from the primary hydroxyl side of each 3-CyD, respectively, (c) The molecular structure of (3 CyD)2(aspirin)2 salicylic acid complex. Aspirin and salicylic acid are drawn by full lines and circles. One of the statistically disordered salicylic acid at three sites is shown in the center of 3-CyD dimer. [Pg.708]

Salicylic acid 2-Hydroxybenzoic acid LeSCN2+ at pH 3 is reddish-brown Typical uses Pe(III) titrated with EDTA to colorless iron-EDTA complex... [Pg.1173]

In this experiment the method of continuous variations is used to determine the stoichiometry and equilibrium constant for the organic complex of 3-aminopyridine with picric acid in CHCI3, and the inorganic complex of Fe +with salicylic acid. [Pg.447]

Finally, attachment of a rather complex side chain to the para position of the benzene ring on the sulfonamide leads to the very potent, long-acting oral antidiabetic agent, glyburide (215). Preparation of this compound starts with the chlorosul-fonation of the acetamide of 3-phenethylamine (209). The resulting sulfonyl chloride (210) is then converted to the sulfonamide (211) and deacylated (212). Reaction with the salicylic acid derivative, 213, in the presence of carbodiimide affords the amide, 214. Condensation of that with cyclohexylisocyanate affords glyburide (215). ... [Pg.139]

The salicylic acid functionality incorporated in a rather complex molecule interestingly leads to a compound that exhibits much the same activity as the parent. The 1,4 diketone required for formation of the pyrrole ring can be obtained by alkylation of the enamine from 2-tetralone (38) with phenacyl bromide. Condensation of the product, 39, with salicylic acid derivative 40 leads to the requisite heterocyclic system (41). The acid is then esterified (42) and the compound dehydrogenated to the fully aromatic system (43). Saponification affords fendosal (44). ... [Pg.170]

A seemingly complex heterocycle which on close examination is in fact a latentiated derivative of a salicylic acid shows antiinflammatory activity. It might be speculated that this compound could quite easily undergo metabolic transformation to a salicylate and that this product is in fact the active drug. Condensation of acid 134 with hydroxyl amine leads to the hydroxamic acid 135. Reaction of... [Pg.244]

Samarium, tris(triphenylphosphine oxide)bis-(diethyldithiophosphato)-structure, 1,78 Samarium complexes dipositive oxidation state hydrated ions, 3, 1109 Samarium(III) complexes salicylic acid crystal structure, 2, 481 Sampsonite, 3, 265... [Pg.219]

The complexes of aromatic hydroxy carboxylic acids (salicylic acid and its isomers) with [Bu2Sn(IV)] and [Ph3Sn(IV)] were obtained. The FT-IR and Raman spectra clearly demonstrated that the organotin(IV) moieties react with the O, O) atoms of the ligands. It was found that in most cases the -COO group chelated to the central atoms, but monodentate coordination was also observed. The complexes probably have polymeric structures. [Pg.389]

Merola reported the preparation of hydrido(carboxylato)iridium(lll) complexes, mer-[lrCl(0C(0)R)(H)(PMe3)3] (90) (R = Ph, Me), by oxidative addition of acetic acid or benzoic acid to [Ir(cod)(PMe3)3]Cl (67) [46]. The structure of 90 (R = Ph) in which the carboxylato ligand coordinates as an T -ligand, was confirmed by X-ray analysis. The reaction of 67 with salicylic acid yielded the product 91, which resulted from activation of the O-H bond of the carboxylato but not of the hydroxo group (Scheme 6-13). [Pg.189]

C7H603 C9H13N305 Salicylic acid-cytidine complex (SALCYS)284... [Pg.357]

C7H603 CaH NaOB Salicylic acid-cytidine complex SALCYS 43 357... [Pg.405]

Hok, B., Studies on the extraction of metal complexes. XV. The dissociation constants of salicylic acid, 3,5-dinitrobenzoic acid, and cinnamic acid and the distribution between chloroform-water and methyl isobutyl ketone (hexone)-water, Sv. Kem. Tidskr. 65, 182-194 (1953). [Pg.268]

For weak acids, e.g., salicylic acid, the dependency on a pH gradient becomes complex since both the passive diffusion and the active transport process will be dependent on the proton concentration in the apical solution [61, 63, 98, 105] and a lowering of the pH from 7.4 to 6.5 will increase the apical to basolateral transport more than 20-fold. Similarly, for weak bases such as alfentanil or cimetidine, a lowering of the pH to 6.5 will decrease the passive transport towards the basolateral side [105]. The transport of the ionizable compound will, due to the pH partition hypothesis, follow the pKa curve. [Pg.109]

Good non-colored negative charging CCAs have been obtained by making non-colored analogues of the 2 1 chromium complex azo dyes. This is achieved by making the metal complex of an aromatic ortho-hydroxy carboxylic acid. Typical examples are the chromium, aluminum, and zinc complexes of di-tert-butyl salicylic acid, e.g., BONTRON E-8136 41 (53) and BON-acid36,41,42 e.g., BONTRON E-82 (54). [Pg.567]

Lanthanide ions have been used as DEFRET acceptors in split probes for DNA sequence such as shown in Figure 15.137 When using europium and terbium complexes, the choice of chromo-phores is rather restricted, owing to the high-energy emissive states associated with these ions (vide supra). In this case, the donor chromophore is a salicylic acid unit appended to an... [Pg.934]

Replacement of the hydroxyl group on the phenyl ring with a carboxyl group forms a molecule of benzoic acid. Addition of a hydroxyl at the 2-position on a benzoic acid molecule forms 2-hydroxybenzoic acid or salicylic acid. The slightly more complex phenylpropanoid skeleton contains a linear three-carbon chain (the propanoic group) added to the benzene ring (the phenyl group). Addition of ammonia to carbon 2 of this three-carbon side chain yields the amino acid phenylalanine (Fig. 3.3). Phenylalanine... [Pg.90]

As the following pages of this section will show, there is hardly a new method of analysis which is not immediately tried for the determination of aspirin as such, or in formulations and biological fluids. The analysis of aspirin is intricately interwoven with that of salicylic acid, its precursor and degradation product. From the very first, residual salicylic acid was determined by the convenient reaction with ferric salts — typical for phenols — which give a violet complex with salicylic acid. [Pg.21]

Much work has been done since, and it is quite evident that this seemingly simple hydrolysis to acetic and salicylic acids is both complex and controversial. I am fortunate that I can refer the reader to the excellent and detailed review by Clark A. Kelly151 already mentioned in Section 5.61. The most complete and thorough kinetic studies of the factors involved in the hydrolysis of aspirin are undoubtedly those by Edwards17 3, which were further elaborated by Garrett.174... [Pg.31]

Copper complexes were used as efficient catalysts for selective autoxidations of flavonols (HFLA) to the corresponding o-benzoyl salicylic acid (o-BSH) and CO in non-aqueous solvents and at elevated temperatures (124-128). The oxidative cleavage of the pyrazone ring is also catalyzed by some cobalt complexes (129-131). [Pg.442]


See other pages where Salicylic acid complex is mentioned: [Pg.364]    [Pg.357]    [Pg.1021]    [Pg.357]    [Pg.7166]    [Pg.71]    [Pg.250]    [Pg.364]    [Pg.357]    [Pg.1021]    [Pg.357]    [Pg.7166]    [Pg.71]    [Pg.250]    [Pg.1071]    [Pg.105]    [Pg.133]    [Pg.45]    [Pg.91]    [Pg.219]    [Pg.100]    [Pg.1071]    [Pg.54]    [Pg.165]    [Pg.238]    [Pg.51]    [Pg.99]    [Pg.212]    [Pg.213]    [Pg.75]    [Pg.332]   
See also in sourсe #XX -- [ Pg.21 ]




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Acids salicylic acid

Beryllium complexes salicylic acid

Boron complexes salicylic acid

Chromium complexes salicylic acid

Copper complexes salicylic acid

Determination of complexation capacity with salicylic acid

Salicylic acid

Salicylic acid acidity

Salicylic acid metal complexes

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