The nonaqueous potentiometric determination of commercial benzophenone oxime (LIX) extractants

A nonaqueous potentiometric method for the determination of substituted benzophenone oxime reagents (LIX) used as extradants in copper extraction processes is described. t-Butanol is used as the solvent and tetrabutylammonium hydroxide as the titrant. Endpoints are detected with a glass-modified calomel electrode system; a slow rate of titrant delivery is used near the inflection point. The syn and anti isomers of LIX reagents (substituted o-hydroxybenzophenone oximes) can be differentiated.     

Determination of antioxidants by a novel on-line HPLC-cupric reducing antioxidant capacity (CUPRAC) assay with post-column detection

A novel on-line HPLC-cupric reducing antioxidant capacity (CUPRAC) method was developed for the selective determination of polyphenols (flavonoids, simple phenolic and hydroxycinnamic acids) in complex plant matrices. The method combines chromatographic separation, constituent analysis, and post-column identification of antioxidants in plant extracts. The separation of polyphenols was performed on a C18 column using gradient elution with two different mobile phase solutions, i.e., MeOH and 0.2% o-phosphoric acid. The HPLC-separated antioxidant polyphenols in the extracts react with copper(II)-neocuproine (Cu(II)-Nc) reagent in a post-column reaction coil to form a derivative. The reagent is reduced by antioxidants to the copper(I)-neocuproine (Cu(I)-Nc) chelate having maximum absorption at 450 nm. The negative peaks of antioxidant constituents were monitored by measuring the increase in absorbance due to Cu(I)-Nc. The detection limits of polyphenols at 450 nm (in the range of 0.17-3.46 μM) after post-column derivatization were comparable to those at 280 nm UV detection without derivatization. The developed method was successfully applied to the identification of antioxidant compounds in crude extracts of Camellia sinensis, Origanum marjorana and Mentha. The method is rapid, inexpensive, versatile, non-laborious, uses stable reagents, and enables the on-line qualitative and quantitative estimation of antioxidant constituents of complex plant samples.     

The trace determination of some heavy metals in waters by flow-injection spectrophotometry and potentiometry

Three automated flow-injection systems are proposed for the determination of traces of manganese(II), lead and copper(II) in waters. The first system utilizes the catalytic effect of manganese(II) on the oxidation of N,N-diethylaniline by potassium periodate at pH 6.86–7.10 (30°C) and is used for spectrophotometric determination at 475 nm in the range 0.02–1.00 μg1^?1; the system involves reagent injection and stopped flow. The determination of lead in the range 0.7–100 μg1^?1 is based on spectrophotometric detection of the lead 4/(2-pyridylazo)resorcinol complex at 525 nm after on-line preconcentration of the sample (5–50 ml) on a minicolumn filled with Chelex-100 or Dowex 1-X8 resin. A potentiometric flow-injection system with a copper ion-selective electrode is applied for the determination of 0.5–1000 μg 1^?1 copper(II) after on-line preconcentration of 50–500 ml of sample on Chelex-100 resin. The procedures are tested on synthetic and real water samples, including sea water and waste-waters.     

Combined HPLC-CUPRAC (cupric ion reducing antioxidant capacity) assay of parsley, celery leaves, and nettle

This study aims to identify the essential antioxidant compounds present in parsley (Petroselinum sativum) and celery (Apium graveolens) leaves belonging to the Umbelliferae (Apiaceae) family, and in stinging nettle (Urtica dioica) belonging to Urticaceae family, to measure the total antioxidant capacity (TAC) of these compounds with CUPRAC (cupric ion reducing antioxidant capacity) and ABTS spectrophotometric methods, and to correlate the TAC with high performance liquid chromatography (HPLC) findings. The CUPRAC spectrophotometric method of TAC assay using copper(II)-neocuproine (2,9-dimethyl-1,10-phenanthroline) as the chromogenic oxidant was developed in our laboratories. The individual antioxidant constituents of plant extracts were identified and quantified by HPLC on a C18 column using a modified mobile phase of gradient elution comprised of MeOH-0.2% o-phosphoric acid and UV detection for polyphenols at 280 nm. The TAC values of HPLC-quantified antioxidant constituents were found, and compared for the first time with those found by CUPRAC. The TAC of HPLC-quantified compounds accounted for a relatively high percentage of the observed CUPRAC capacities of plant extracts, namely 81% of nettle, 60-77% of parsley (in different hydrolyzates of extract and solid sample), and 41-57% of celery leaves (in different hydrolyzates). The CUPRAC total capacities of the 70% MeOH extracts of studied plants (in the units of mmol trolox g⁻¹ plant) were in the order: celery leaves > nettle > parsley. The TAC calculated with the aid of HPLC-spectrophotometry did not compensate for 100% of the CUPRAC total capacities, because all flavonoid glycosides subjected to hydrolysis were either not detectable with HPLC, or not converted to the corresponding aglycons (i.e., easily detectable and quantifiable with HPLC) during the hydrolysis step.     

Synthesis of bidentate pyridylazo and thiazolylazo reagents and the spectrophotometric determination of copper in a flow-injection system

Some pyridylazo and thiazolylazo compounds were synthesized as spectrophotometric reagents for copper(II). The water-soluble bidentate ligand, 4-(3,5-dibromo-2-pyridylazo)-N-ethyl-N-(3-sulfopropyl)aniline (3,5-diBr-PAESA), provides the greates sensitivity, forming a 1:2 Cu:L in the presence of sodium dodecylsulfate. The molar absorptivity of the complex is 1.24 × 10⁵ l modl^?1 cm^?1 at 638 nm. Copper(II) (10–200 μg l^?1) is easily and quickly (60 h^?1) determined in a flow-injection system. Application to the determination of copper(II) in serum is described.     

Kinetics of photo-sensitized and photo-stabilized photo-degradation of isotactic poly(1-butene)

This investigation describes the results of the 3-(o-carboxyphenyl)-1-phenyltriazene-N-oxide sensitized and copper(II) bis-3-(o-carboxyphenyl)-1-phenyltriazene-N-oxide stabilized photo-degradation of isotactic poly(1-butene) film in air, at a temperature at which formation of volatiles is negligible and with a light intensity flux of 2·38 × 10^?9 einstein s^?1 cm^?2. The course of the degradation and stabilization was determined by means of light scattering and spectrophotometric techniques. The extent of photo-degradation was followed by carbonyl formation, gel content and activation energy. Infra-red, ultraviolet spectra and light scattering data have been employed to substantiate a mechanism of degradation.     

Synthesis of o,o′-dihydroxyazo compounds and their application to the determination of magnesium and calcium by flow injection analysis

Seven _o,o′-dihydroxyazo dyes were synthesized and examined as spectrophotometric reagents for magnesium and calcium. These reagents are highly sensitive for magnesium (? = 47 000) and calcium (? = 39 000 l mol^?1 cm^?1). Of the reagents synthesized, 2-(2-hydroxy-3,6-disulfo-1-naphthylazo)-5-(N,N-diethylamino)phenol was the best because of its ease of preparation and purification, and its stability in alkaline solution. This dye was applied in the determination of magnesium and calcium by flow injection analysis. The total concentration of magnesium (0.1–1.2 mg 1^?1) and calcium (0.4–4.0 mg 1^?1) was determined by masking iron(III), aluminium(III), copper(II), zinc(II), manganese(II) and cadmium(II) with 2,3-dimercapto-1-propanol (DMP) and triethanolamine (TEA). Magnesium was determined by masking calcium and the other metal ions with a ligand buffer containing barium(II)—EGTA, DMP and TEA. The amount of calcium was obtained as the difference between the two peak heights. Results for the determination of magnesium and calcium in potable water and serum are presented.     

Selective Spectrophotometric Determination of Oxyphenbutazone Using a Chelate Forming Reaction

Abstract

A selective spectrophotometric method for the determination of oxyphenbutazone is described. The method is based on nitrosation reaction and simultaneous formation of copper(II) or cobalt (II) chelate of the nitrosoderivative. The formed chelates are extractable with organic solvents giving yellow solutions whose absorbance are proportional to the concentration of oxyphenbutazone. In addition, the chelate extracts, upon treatment with diethyldithiocarbomate develop an additional indirect method of high selectivity for determining oxyphenbutazone. The developed methods are highly accurate and comparable with an official method.     

Complexation of aminoglycoside antibiotics with metal cations as a derivatization reaction: Determination of gentamicin by equilibrium electrochemical and spectrophotometric methods

The complexation of aminoglycoside antibiotics with metal cations was proposed as a derivatization method for the further determination of the complex obtained by potentiometry with ion-selective electrodes (ISE), voltammetry at the interface between two immiscible electrolyte solutions (ITIES), and spectrophotometry. It was shown by the spectrophotometric method that gentamicin formed a 1: 1 complex with copper(II). For the potentiometric determination of gentamicin, we obtained ionophores that were ion associates formed by the gentamicin complex of copper(II) and tetraphenylborate derivatives as counterions. The transfer of the gentamicin complex of copper(II) was studied voltammetrically at the ITIES. The results obtained indicate that l antibiotic gentamicin can be directly determined as a complex with copper(II) by potentiometric, voltammetric, and spectrophotometric methods.     

An ultrasensitive catalytic method for metal ions and cyanide-containing organic compounds

Ultrasensitive methods are described for the detection and determination of cyanide-containing organic compounds and of various metal ions. The methods are based either on the hydrolysis of the organic compounds to give cyanide ion, which then catalyzes the reduction of o-dinitrobenzene via formation of the cyanohydrin anion of p-nitrobenzaldehyde, or on the inhibition of this catalytic reaction by silver-(I), mercury(II), copper(II), cobalt(II), nickel(II), zinc(II) and cadmium(II) which form cyanide complexes. By these methods, tetracyanoethylene, p-chlorobenzylidine malononitrile, or benzoyl cyanide (0.1–10 μg/ml) may be determined with a deviation of about 2%, and Ag(i). Hg(II) (0.02–0.2 μg/ml), Cu(II) (0.003–0.030 μg/ml), Co(II) (0.06–0.40 μg/ml) and Ni(II), Zn(II) and Cd(II) (1–10 μg/ml) can be determined with a deviation of about 3%.     

Benzothiazole-2-aldehyde-2-quinolylhydrazone as a reagent for the extractive spectrophotometric determination of copper (II)

Benzothiazole-2-aldehyde-2-quinolylhydrazone (BTAQH) was used for the spectrophotometric determination of trace amounts of copper(II) after the extraction process. Copper(II) reacts with BTAQH at pH 8.3–12.6 to form a water-insoluble 1:2 complex, which can be extracted with many kinds of organic solvent. The extracted species with benzene has an absorption maximum at 523 nm and obeyed Beer's law over the range 0.09 to 0.75 ppm of copper. The molar absorptivity is 7.50 × 10⁴M^?1 cm^?1 at 523 nm. The spectral properties of the copper(II) complexes with some tridentate hydrazones containing benzothiazole ring as a functional group were also discussed.     

Alkanohydroxamic acids in the accurate computer-aided spectrophotometric determination of copper(II)

The computer-aided spectrophotometric determination of copper(II) (0.03–1 mg l^?1) with 2-amino-N,3-dihydroxypropanamide or 2-amino-N,3-dihydroxybutanamide as reagent is reported. In the LESSDAD program used, a least-squares is applied for simultaneously calculating the analytical concentrations in solutions of several substances; the data needed are the pH of the solution, experimental absorbances, known molar absorptivities and the relevant equilibrium constants. The method is rapid and the results obtained were accurate and precise.     

Nonpyridinic derivatives in C-5 of 2-thiohydantoin for spectrophotometric determination of palladium

The reactions between Pd(II) and four nonpyridinic derivatives of 2-thiohydantoin (5-benzal-2-thiohydantoin, 5-(o-hydroxy)benzal-2-thiohydantoin, 5-(m-hydroxy)benzal-2-thiohydantoin, and 5-anisal-2-thiohydantoin) have been considered. The influence of the different experimental parameters on the formation of the complexes was studied, and the optimum conditions for the determination of palladium were established. The anisal derivative was selected among these four reagents and the spectrophotometric determination of palladium described in detail. The precision of the procedure, expressed in terms of relative standard deviation was 0.9%, and numerous ions that usually interfere in palladium determination, such as Os(VIII), Rh(III), and Ru(IV) (of the platinum group) and Pb(II), Cd(II), Ni(II), Co(II), Zn(II), and others of the transition series, were tolerated.     

Derivate von salicylketonen1: Mitt. schiffsche basen aromatischer o-aminoketone mit ǎthylendiamin und ihre analytische anwendung zur nickelbestimmung

Schiff bases from ethylenediamine with o-aminoacetophenone or o-aminoben-zophenone were prepared, and their chelating properties towards copper, nickel, cobalt, iron, palladium and platinum were studied. The use of the ligands for the photometric determination of metals was tested. A method for the determination of nickel with N,N'-bis(o-aminoacetophenone)-ethylenediimine was developed. Masking agents prevent the interference of iron and copper; a 25-fold amount of palladium and a 10-fold amount of cobalt can be tolerated.     

The development of sequential injection analysis coupled with lab-on-valve for copper determination

A sequential injection analysis (SIA) using lab-on-valve with air segmentation and spectrophotometric detection was designed for copper(II) determination. It is based on the reaction of copper(II) and 2-carboxy-2′-hydroxy-5′-sulfoformazyl benzene (Zincon) in a weak alkaline solution between the air zones. Beer's Law was obeyed over the range of 0.1-2.0 mg L⁻¹ copper(II) with a correlation coefficient 0.9985 and a slope of 0.2893 absorbance unit/mg L⁻¹. The relative standard deviation was 2.0% for a series of 10 measurements of 0.5 mg L⁻¹ copper(II) solution. The detection limit (3 S/N) and the limit of quantification (LOQ) were 0.05 and 0.17 mg L⁻¹ respectively. This method has been successfully applied to determination of copper(II) in wastewater with a sample throughput of 120 h⁻¹. The method is superior to the batchwise method in that it provides fully automation, rapidity, less reagents and sample consumption with little waste generation.     

Determination of niacin and niacinamide in pharmaceutical products by automatic discrete-sample analysis

A spectrophotometric method is proposed for the determination of small amounts of iodide. The method is based on the reduction of bis(neocuproine)-coppcr(II) to the monovalent copper chelate cation in the aqueous phase by iodide ion and subsequent solvent extraction into chlorobenzene of the ion-pair formed between bis(neocuproine)copper(I) cation and the tri-iodide anion. At least a 5-fold molar amount of the copper(II) chelate cation, relative to iodide, is needed, and the optimal pH range is 3–5. The absorbance of the extract at 370 nm is a linear function of iodide concentration in the aqueous phase over the range 5·lO^-6–4·10^-5M (ca. 0.6–5 p.p.m.). The relative standard deviation was 1.0%. Large amounts of fluoride and chloride (2000-fold molar) and bromide (50-fold) did not appreciably affect the determination of iodide. The extraction mechanism is elucidated.     

Analysis of Thiabendazole Via its Metal Complexes

Abstract

A new spectrophotometric method for the determination of thiabendazole has been developed. The method depends on the reaction of thiabendazole with copper (II), mercury (II) and silver (I) to form 1:1 complexes having maximum absorption at 317 nm, 318 nm and 324 nm, respectively. These absorption bands were used for the spectrophotometric determination of thiabendazole in pure form, in raw material and in pharmaceutical formulations.     

Spectro photometric determination of bromate with o-arsanilic acid

o-Arsanilic acid reacts with bromate ions in dilute acid solution and forms a reddish-brown color which is suitable for the spectrophotometric determination of bromate. The reaction has a sensitivity of 0.05 μg BrO₃^- per cm2 for log $\text{I}{}_{\mathrm{o}}\text{l}$ = 0.001 and obeys Beer's law up to 50 p.p.m.The standard deviation for the color development (387 p.p.m. brornate) is 0.95%, and 0.52% in the determination of bromate in salt solutions.Optimum analytical conditions for the reaction have been established and a procedure for the spectrophotometric determination of bromate is given.     

Solid-phase spectrophotometric determination of nickel in water and vegetable samples at sub-mug l(-1) level with o-carboxylphenyldiazoaminoazobenzene loaded XAD-4

A highly sensitive and selective solid-phase spectrophotometric method for the determination of sub-μg l⁻¹ level nickel(II) is described. Nickel(II) was sorbed on a styrene-divinylbenzene-type resin Amberlite XAD-4 as a Ni(II)-o-carboxylphenyldiazoaminoazobenzene (o-CDAA) complex. At pH 9.0, resin phase absorbances at 588 and 800 nm were measured directly with an apparent molar absorptivity of 2.95×10⁷ g mol⁻¹ cm⁻¹. The linear range of the determination was 1.2-41 μg g⁻¹ resin. The detection limit and the quantification limit were found to be 0.24 and 0.76 μg g⁻¹ resin, respectively. The relative standard deviation of 10 replicate determinations of 1.0 μg nickel(II) in 100 ml sample was of 1.5%. The tolerance limit of coexistent ions was also investigated. Most of them are in tolerable amount. For practical analyses, 1 ml acetylacetone used can eliminate the interferences caused by Cu and Fe. The procedure was validated by analysis a certified water reference material (GBW 08618 Beijing, China) and a tomato leaf certified reference material (GBW 08402 Beijing, China) with the results in agreement with the certified values. The method was applied to the determination of nickel(II) in water and vegetable samples with satisfactory results.     

A study of the spectrophotometric determination of traces of cadmium(II) and copper(II) with 2-(5-bromo-2-pyridylazo)-5-diethylaminophenol in the presence of polyglycol octylphenyl ether

A spectrophotometric study of the Cd(II) and Cu(II) complex of a new reagent, 2-(5-bromo-2-pyridylazo)-5-diethylamino phenol (5-Br-PADAP) in the presence of polyglycol octylphenyl ether (OP) is presented. A reddish binary complex is formed at pH 9 and shows maximal absorbance at 560 nm with molar absorptivity of 1.16 × 10⁵ · mol⁻¹ · cm⁻¹ liter (Cd), 1.5 × 10⁵ mol⁻¹ · cm⁻¹ · liter (Cu). Beer's law is followed over the range 0.0 to 20 μg cadmium(II) and 0.0–18 μg copper(II). The continuous variation method and molar ratio method showed that the metal ligand ratio is 1:2; ordinarily, most ions do not interfere with the determination and the method can be applied for direct spectrophotometric determination of cadmium(II) and copper(II) in actual samples and the results obtained are satisfactory.