A new application of atomic absorption spectrophotometry : Determination of phthalic acid by solvent extraction with neocuproine-copper(I) chelate

A new application of atomic absorption spectrophotometry is reported for the determination of phthalic acid. Phthalic acid is extracted as the ion-pair formed between bis(neocuproine)-copper(I) and the univalent anion of phthalic acid with MIBK; the copper concentration in the extract is then determined by atomic ab sorption in an air-acetylene flame at the 3247 Å copper line. Optimal conditions are described. The absorbance of the extract showed a linear relationship to the concentration of phthalic acid initially present in the aqueous solution over the range of 4·10^-6 to 4·10^-5M. The effect of some analogous aromatic carboxylic acids on the phthalate extraction and the composition of the extracted species were also investigated.     

The determination of thallium(III) with the 2,2'-bipyridyl-iron(II) chelate

A spectrophotometric determination of thallium (III), based on solvent extraction of an ion-association pair formed between the cationic 2,2'-bipyridyl-iron(II) chelate and the anionic thallium(III) bromide complex is described. The best extractant is 1,2-dichloroethane and extraction is possible over the pH range 2.5–6.7. The composition of the extracted species was confirmed, and conditions were established for the extraction over the concentration range 7.9·10^-6–3.5·10^-5M of thallium in aqueous solution.     

The spectrophotometric determination of anions by solvent extraction with metal chelate cations. part XX : Trichloroacetic acid with tris(1,10-phenanthroline)iron(ii) chelate

Trichloroacetic acid can be extracted from an aqueous solution by nitrobenzene with tris(1,10-phenanthroline)iron(II) chelate, and can be determined spectrophotometrically by measuring the extract at 516 nm. The extracted species is probably [Fe(phen)₃].(CCl₃COO)₂. Beer's law is obeyed over the concentration range 1.0·10^-5–1.0·10^-4M trichloroacetic acid in aqueous solution. Large amounts of phosphate and sulfate and moderate amounts of chloride, acetic acid, and monochloroacetic acid do not interfere, equal amounts of dichloroacetic acid give a slight positive error     

Optimization of cloud point extraction of copper with neocuproine from aqueous solutions using Taguchi fractional factorial design

Taguchi method was applied to optimize cloud point extraction (CPE) conditions for preconcentration and determination of trace amounts of copper by UV-Vis spectrophotometry. Briefly, the copper ions formed complexes with neocuproine in aqueous solution; then, Triton X-114 (0.15%, w/v) was added and phase separation occurred upon heating to 60°C. The copper complexes were preconcentrated into the small volume of the surfactant-rich phase; after centrifugation, the surfactant-rich phase was diluted with methanol and absorbance was measured at 455 nm. The main factors affecting the CPE were evaluated and optimized with Taguchi orthogonal array design (OA ₂₅). Under the optimum conditions, the calibration curve was linear in the range 2–500 μg/L (r ² > 0.997). The limit of detection and preconcentration factor were 1.8 μg/L and 37.2, respectively. The applicability of the proposed method was successfully confirmed by preconcentration and determination of trace amounts of copper in water samples and satisfactory results were obtained.     

Extraction—spectrophotometric determination of traces of cadmium with 4-(2-pyridylazo)resorcinol and a long-chain quaternary ammonium salt

A simple and highly sensitive extraction—spectrophotometric determination of cadmium is described. The ion-associate formed between the cadmium-PAR anionic chelate and cetyldimethylbenzylammonium chloride (CDBA) is extracted with chloroform at pH 10. The absorption maximum of the extracted species occurs at 505 nm, the molar absorptivity being (9.82 ± 0.30) × 10⁴ l mol^-1 cm^-1. The optimal concentration range for measurements is 0.2–1.0 μg Cd ml^-1; Beer's law is obeyed. The composition of the ion-associate is estimated to be CdPAR₂-2CDBA. The conditional extraction constant is log K'_ex ≈ 8. The stability constant of the cadmium—PAR chelate in aqueous solution is log β₂ = 17.5 ± 0.3. Extraction with N-benzoyl-N-phenylhydroxylamine is used to avoid several interferences. Moderate amounts of zinc are masked with sodium hydroxide.     

2-[2-(5-Bromopyridyl)azo]-5-dimethylaminophenol; a new sensitive reagent for cadmium

Cadmium(II) reacts with 2-[2-(5-bromopyridyl)azo]-5-dimethyl-aminophenol (5-Br-DMPAP) in aqueous solution; the complex can be extracted with organic solvents such as chloroform, 3-methyl-l-butanol and methyl isobutyl ketone at pH 8–10.5 to give a red solution which absorbs at 525–555 nm. The absorbance in organic solvents is stable and the system conforms to Beer's law; the optimal range in 3-methyl-1-butanol for measurement in 1.00-cm cells is 0.01–l p.p.m. cadmium. Moderate amounts of many cations and anions do not interfere, and interfering cations such as zinc, copper, manganese and nickel can be separated by extraction with dithizone. The 5-Br-DMPAP method is one of the most sensitive procedures available for the determination of cadmium; the molar absorptivity in a 3-methyl-1-butanol extract is 1.41·10⁵ 1 mol^?1 cm^?1 at 555 nm.     

Selective determination of gallium by flow injection fluorimetry

Gallium can be determined fluorunetrically, with linear response in the range 2.2 × 10^-5 M–1.08 × 10^-4 M, by means of chelate formation with lumogallion ; fluorescence is enhanced by mixing with a polyethylene glycol monolauryl ether solution. Up to 10-fold molar amounts of aluminum can be tolerated, because of the slow formation rate of the aluminum—lumogallion chelate.     

Determination of Copper in Human Urine by RP-LC After Pre-column Derivatization with Neocuproine and Use of Monolithic Column

A selective sensitive RP-LC–UV/VIS method with pre-column derivatization was developed for the determination of copper in human urine at a trace level. This method is based on the selective reaction of 2,9-dimethyl-1,10-phenanthroline (neocuproine) with copper(I) to produce a yellow-orange hydrophobic complex in a neutral or slightly acidic buffer solution (adjusted to pH 5.9). Copper(II) was reduced to copper(I) ions by ascorbic acid as a weak reducer, which was added both to urine sample and mobile phase, respectively. A hydrophobic copper(I)–neocuproine chelate was determined by RP-LC–UV/VIS using a monolithic column Chromolith Performance RP-8e (100 × 4 mm I.D.) at 30.0 ± 0.1 °C with a methanol: aqueous buffer (pH 5.9, ammonium acetate and ascorbic acid 2.8 mmol L^?1) mobile phase at flow rate of 2.00 mL min^?1. Sample injection volume was 20 μL and detection was done at 453 nm. The method was validated over a concentration range of 0.09–11.50 μmol L^?1. The LOD of copper in human urine was found to be 0.07 μmol L^?1 concentration level, suitable for clinical analysis. The precision of the results, reported as the RSD, was below 4.6 % for copper concentration within range 0.5–5.0 μmol L^?1 in the spiked human urine samples.     

Analytical Use of Copper (II)-Neocuproine in The Spectrophotometric Determination of Hydrazines

Abstract

This work characterizes a newly developed, sensitive and convenient spectrophotometric procedure for determination of sub-ppm concentrations of hydrazine and its organic derivatives. The method is based on formation of the cuprous neocuproine chelate after reaction of hydrazines with a prepared aqueous solution of the copper (II)-neocuproine complex. The cuprous chelate is then directly measured in aqueous solution at 458 nm. The effect of several experimental conditions influencing the reaction are presented and the method was employed for the analyis of 5 different hydrazine compounds. The standard deviation did not exceed ± 0.47%.     

Spectrophotometric Study on the Extraction of 4-(2- Thiazolylazo)Resorcinol Chelates of Cobalt(II), Nickel(II), Copper(II), and Zinc(II) with Zephiramin

Abstract

The solvent extraction of the transition metals(II)4-(2-thia-zolylazo)resorcinol(TAR) chelate anions with cation of zephiramin (Z⁺ Cl^?) was spectrophotometrically investigated. The composition of the extracted species was estimated to be 2Z⁺ MR₂ ^2-, which had the absorption maxima in the same ranges of wavelength at about 550 nm, and the constant extractions were obtained at pH 6.7–10.2 for cobalt, 7.2–9.1 for nickel, 8.2–10.1 for zinc, and 8.5–10.7 for copper system. In the presence of sodium chloride, cobalt chelate could be effectively separated from the other transition metals. The extraction equilibrium was also investigated and the extraction constants were calculated.     

Trace Amounts of Aqueous Copper(II) Chloride Complexes in Hypersaline Solutions: Spectrophotometric and Thermodynamic Studies

Knowledge of the thermodynamic properties of aqueous copper(II) chloride complexes is important for understanding and quantitatively modeling trace copper behavior in hydrometallurgical extraction processing. In this paper, UV–Vis spectra data of Cu(II) chloride solutions with various salinities (NaCl, 0–5.57 mol·kg^?1) are collected at 25 °C. The concentration distribution of Cu–Cl species is in good agreement with those calculated by a reaction model (RM). The simple hydrated ion, Cu²⁺, is dominant at low concentration, whereas [CuCl]⁺, [CuCl₂]⁰ and [CuCl₃]^? become increasingly important as the chloride concentration rises. Moreover, the RM calculation suggests the present of a small amount of [CuCl₄]^2?. The de-convoluted molar spectrum of each species is in excellent agreement with our previous theoretical results predicted by time-dependent density functional theory treatment of aqueous Cu-containing systems. The formation constants for these copper chloride complexes have been reported and are to be preferred, except log₁₀ K ₂ ([CuCl₂]⁰).     

An inimitable and ecological pleasant technique for the assessment of trace amount of copper (II) in tangible samples with new complexing reagent

A simple and rapid spectrophotometric technique has been designed for the trace copper analysis employing 1-(2-Thiazolylazo)-2-naphthol (TAN) reagent in aqueous micellar solution of cetyl trimethylammonium bromide (CTAB) as a surfactant. Copper complexed with 1-(2-Thiazolylazo)-2-naphthol to form bis[1-(2-Thiazolylazo)-2-naphthol]copper. The present spectrophotometric technique was very important since the micellar system was used in place of the toxic, high cost and time-consuming solvent extraction steps. The technique showed an enhanced detection efficiency, specificity, and molar absorptivity. It was found that the molar absorption coefficient and sensitivity of Sandel were ε 2.45 × 10⁴ L mol^?1cm^?1 and 2.6 ngcm^?2 at λ_max 578.4 nm. A linear calibration plot in the range 0.12–5.0 μg mL^?1 was obtained; a stoichiometric metal ligand ratio [M:L] of 1:2 was found for the formation of Cu-[TAN]₂. The complex was formed at pH 9.5 and was stable up to 24 h. The proposed technique has been employed to study copper from different alloys, biological, environmental and pharmaceutical samples.     

Radical reactions initiated by chelate complexes of transition metals. X. Catalytic decomposition of α,α′-azobisisobutyronitrile

The decomposition of αα′-azobisisobutyronitrile (AIBN) in the presence of bis(-)-ephedrine copper (II) chelate was studied in 1,3,5-trimethylbenzene. It was found that the chelate accelerated the decomposition of AIBN and at the same time interacted with the free radicals arising in the course of this process. The decomposition of AIBN as well as the decay of paramagnetic Cu⁺² particles is a reaction of order 0.3 with respect to the chelate and of order 1.3 and 1.1 with respect to AIBN, respectively. The activation energy of the AIBN decomposition in the presence of chelate is 13–22 kcal/mole for the molar ratio [AIBN]₀/[Chelate]₀ ranging from 1 to 100. On the basis of the kinetic results and analysis of reaction products the mechanism of the interaction of chelate with AIBN is discussed.     

Spectrophotometric determination of nickel with cyclohexylidine-ammonium 2-aminocyclohexylidene-1-cyclohexene-1-dithiocarboxylate

An (extraction)-spectrophotometric method is reported for the determination of nickel(II) with cyclohexylidineammonium 2-aminocyclohexylidene-l-cyclohexene-l-dithiocarboxylate. The violet 1:2 chelate is soluble in aqueous ethanolic or acetonic media at pH 6–9, or can be extracted into methyl isobutyl ketone. The molar absorptivity of the complex is about 2.5 × 10⁴ l mol^?1 cm^?1 at 550 nm.     

Synthesis and properties of a triarylamine derivative with a coordination site and its copper (II) complex

A ligand, 4-(bis(2-picolyl)aminomethyl)-4′,4″-dimethyltriphenylamine ((2-py)2TPA) and its copper complex were designed and prepared in order to examine intramolecular interactions of organic cation radical–metal ion. CV measurements of the copper complex showed reversible Cu^I/Cu^II and TPA/TPA^+· redox couples. The spin–spin interaction in [Cu((2-py)2TPA)Cl]²⁺ generated upon one electron oxidation of the copper complex was examined by ESR measurements.     

Indirect Spectrophotometric Determination of Vanadium(IV) by Flow Injection Analysis Based on the Redox Reaction with Copper(II) in the Presence of Neocuproine

Abstract

An indirect photometric method with a continuous-flow analysis is presented for the determination of trace amounts of vanadium(IV). It is based on the redox reaction of copper(II) with vanadium(1V) in the presence of neocuproine. In the presence of neocuproine, copper(I1) is reduced easily by vanadium(I V) to a copper(1)-neocuproine complex, which shows a n absorption maximum at 454 nm. By measuring t h e absorbance of the complex at this wavelength, vanadium(1V) in t h e range 2×10^?6 - 8 × mol dm^?5 mol dm^?3 can be determined at a rate of 120 samples h^?1. The fractional determination of vanadium(1V) and iron(I1) is also studied.     

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.     

Spectrophotometric Determination of Gold in Water and Ore with 2‐Carboxyl‐1‐Naphthalthiorhodanine

Abstract

This paper reports on the synthesis of a new chromogenic reagent, 2‐carboxyl‐1‐naphthalthiorhodanine (CNTR). A high sensitive, selective, and rapid method for the determination of gold based on the rapid reaction of gold with CNTR and the solid phase extraction of the colored chelate with a reversed phase polymer‐based C₁₈ cartridge was developed. In the presence of 0.05–0.5 mol L^?1 of phosphoric acid solution and emulsifier‐OP medium, CNTR reacts with gold to form a red chelate of a molar ratio 1∶3 (gold to CNTR). This chelate was enriched by the solid phase extraction with a polymer‐based C₁₈ cartridge and the retained chelate was eluted from the cartridge with dimethyl formamide (DMF). The enrichment factor of 100 was achieved. In the DMF medium, the molar absorptivity of the chelate is 1.35×10⁵ L · mol^?1 · cm^?1 at 540 nm. Beer's law is obeyed in the range of 0.01～2 µg mL^?1 in the measured solution. The relative standard deviation for 11 replicates sample of 0.5 µg L^?1 level is 2.05%. The detection limit, based on three times the standard deviation is 0.02 µg L^?1 in the original sample. This method was applied to the determination of gold in water and ore with good results.     

Strong dual-state emission of unsymmetrical and symmetrical thiazolothiazole-bridged imidazolium salts

A novel thiazolothiazole-bridged imidazole derivative (1) was found to exhibit blue fluorescence in gaseous state or in methanol and yellow fluorescence in solid state. The N-alkylation of imidazole subunit(s) in 1 using n-propyl iodide generated unsymmetrically or symmetrically alkylated thiazolothiazole-bridged imidazolium salts with good water solubility and remarkably strong emission in solution. Furthermore, the replacement of iodide counter-anion by triflate or bis(trifluoromethane sulfonyl)imide achieved remarkably strong emission in solid state and in solution as well as good water solubility. The strong fluorescence of dicationic salts with triflate and NTf₂^– counter-anions in solid state can be ascribed to their twisted and rigid structures induced by interionic C?H···F hydrogen bonding.     

Extraction—spectrophotometric determination of palladium(ii) with 2-nitroso-5-diethylaminophenol

An extraction—spectrophotometric determination of palladium(II) with 2-nitroso-5-diethylaminophenol is described. Complex formation and extraction of the complex with chloroform are possible with aqueous phases of about 2.5 M sulfuric acid. The molar absorptivity of the complex is 4.38 X 10⁴ l mol^-1 cm^-1 at 486 nm. Few of the common ions interfere at concentrations of 10^-4–10^-3 M; more than 10^-5 M Ir(IV), 10^-5 M W(VI), 5 × 10^-6 M Au(III) and 10^-6 M iodide cause negative errors. The method can be applied to the determination of palladium in catalysts for automobile exhaust purifiers.