Titration Of Copper Research Articles

Titrations with complexing agents forming mononuclear and binuclear complexes with metals

The general theory of titrations with complexing agents forming metal complexes in which the metal :ligand ratios are 1:1 and 2:1 is discussed, and rules are given for the calculation of conditional constants. The theory is applied to the titration of manganese and copper with triethylenetetraminehexaacetic acid (TTHA). Curves plotting the conditional stability constants of the 1:1 and 2:1 complexes as functions of pH are given. Values of pM at the two equivalence points for the two metals are presented as functions of pH. The curves offer a simple means of predicting the courses of complexation titrations under varying experimental conditions. Moreover, the curves enable a choice of the optimum experimental conditions including the selection of a suitable indicator and an estimation of the attainable accuracy. When the correctness of the theory and the values of the constants used were tested by carrying out visual and photometric titrations, satisfactory agreement was obtained.

Methyleneiminodiacetic acid derivatives of some 7-hydroxycoumarins as analytical reagents

Fifteen derivatives of 7-hydroxycoumarin methyleneiminodiacetic acid were prepared and examined for their analytical reactions in an attempt to improve the selectivity and sensitivity of the calcein blue type of reagent. However, most of the derivatives behaved similarly in their reactions with metal ions. The 3-carboxy-7-hydroxycoumarin complexone fluoresced most intensely and is recommended as an indicator for the titration of copper(II) with EDTA solutions; end-points are satisfactory even with l0 −3 M solutions. Other metals can be determined by addition of EDTA and back-titration with copper(II) solution. Determinations of 0.06–6 μg of copper by quenching of fluorescence are suggested.

A new radiometric titration method based on separation by means of ion exchange

A mathematical expression is derived for the radiocomplexometric determinatic,n of a mixture of two metals with one ligand, using an anion exchanger in the solutic,n as a phase separating system. An expression is also given for the complexometric titration of a metal, when formation of acidic or basic complexes is taken into account. In the experimental part titration procedures are proposed for determinations of nickel, copper and iron, using 65Zn as indicator. The formation of the acidic complex. ZnHY, does affect the radiometric titration curve of zinc with EDTA. ln~oducfion In a previous paper a a radiometric titration of zinc with EDTA in the absence of other metals, based on phase separation by means of ion exchange in the solution, has been described. A formula was derived for this type of titration, showing that under certain conditions the titration curve consists of two straiglht lines. In the present paper a formula is derived for the titration curve of the determination of zinc with EDTA in the presence of other metals. Experimental results are given for a few examples. Radiocomplexometric titrations of zinc in the presence of other metals have so far been carried out only by means of solvent extraction as a phase separating system. DUNCAN and THOMAS, 2 KORENMAN et al. 3 and SPITZY 4 succeeded in titrating mixtures of cobalt and zinc, mercury and zinc, and silver and zinc, using dithizone as the titrant. The titration of copper and zinc, however, was only possible by carrying out two titrations at different pH values, a Very few methods have so far been proposed for the titration of three components in the presence of each other. SPITZY 4 titrated mercury, silver and zinc, and KORENMAN et al. 5 titrated mercury, copper and zinc, both using dithizone as the titrant and 2~ and 65Zn as indicators.

Selective titration of microgram amounts of copper with photometric end-point detection

The reaction of copper ions with pyridylazonaphthol is very suitable and sensitive for the photometric titration of copper. The titration is self-indicating, and at the 0.1-ppm level the standard deviation is 2.5%. The main interferences are caused by bismuth, iron, titanium and vanadium but can be overcome by suitable masking.

New studies on metallofluorescent indicators

Four new metallofluorescent indicators, analogous to calcein but prepared from glycine instead of iminodiacetic acid, have been synthesized and studied by thin-layer chromatography. In addition to fluorescein itself, three isomers of dichlorofluorescein were used in the syntheses. The product obtained with 2',7'-dichlorofluorescein, bis-4',5'-N,N-glycinemethylene-2',7'-dichlorofluorescein, is recommended as a fluorescent indicator for the titration of copper(II) with EDTA solutions.

Magnetic Resonance Studies of the Interaction of Cupric Ion with Native and Modified Forms of Ribonuclease

Abstract The binding of copper to bovine pancreatic ribonuclease A, its carboxymethylated histidine-119 and histidine-12 derivatives, ribonuclease S and S-protein, has been investigated at pH 5 and 6 by measuring the enhancement of the magnetic proton relaxation rate (PRR) of water due to bound copper. The magnitude of the PRR enhancement factor is characteristic for the binding site and reflects its protein environment. Titrations of copper and protein yield values of the binding constants and the number of sites and reveal interaction between binding sites. At pH 5, RNase A and RNase S exhibit three independent binding sites, one strong binding site with a dissociation constant, Kd, of 6 to 7 x 10-4 m and two weaker ones with Kd of approximately 8 x 10-3 m. The 1-carboxymethylhistidine-119-RNase and Sprotein have only two binding sites, one strong and one weak, and 3-carboxymethyl histidine-12-RNase has one strong site. The enhancement of the strong site, ebb1, is 6.1 for RNase A, almost the same for the 1-carboxymethylhistidine119-RNase, 5.9, but significantly lower for RNase S, 5.1, suggesting a more flexible structure for RNase S at the first Cu(II)-binding site. Modification of histidine-12 by carboxymethylation results in a drastic change in the environment of this Cu(II)-binding site, ebb1 = 30. To a lesser extent, removal of S-peptide also results in an increased value of ebb1 at the tight binding site, ebb1 = 9.0 in S-protein. At pH 6.0, the binding patterns become much more complex; all species except the histidine-12 derivative exhibit cooperativity in Cu(II) binding and some association, rendering it impossible to extract the number of sites or values of Kd and eb for individual sites from the data. 3-Carboxylmethylhistidine-12-RNase is exceptional in that it reveals two equivalent noninteracting binding sites at pH 6, Kd equals 4 x 10-4 m, and eb equals 24.3. Measurements of the enhancement as a function of temperature indicated that the chemical exchange of water ligands in the Cu(II) ribonuclease complexes is so fast that the observed relaxation rates of all of the complexes are determined by the dipolar correlation time in the first hydration sphere of Cu(II). The magnitude of the energies of activation of 3 to 5 kcal per mole indicates that rotational motion determines the relaxation rate. The inhibitor constants for Cu(II) were determined at pH 5 for RNase A and RNase S, respectively, with cytidine2', 3'-cyclic phosphate as substrate and agreed within a factor of 2 or less with the Kd of the tight binding site determined from PRR enhancement data. In electron paramagnetic resonance spectra at pH 5 of solutions of Cu(II) and RNase A, two peaks were observed corresponding to free copper and bound copper. Titrations of RNase A with Cu(II) by electron paramagnetic resonance yielded the same values for free Cu(II) as those calculated from the PRR enhancement data, indicating that all of the Cu(II)-binding sites were enhanced and that the PRR data accounted for the total Cu(II) bound. On the basis of the enhancement data and other known properties of RNase A, the strong Cu(II)-binding site is tentatively assigned to histidine-12 and the two weaker sites to histidine-105 and histidine-119.

Spectrophotometric extractive titrations—VI : Titrations with 1-(2-pyridylazo)-2-naphthol

The possibility of using PAN as a titrant in spectrophotometric extractive titrations has been investigated. Conditions suitable for the titration of zinc and of cadmium were found, with the aid of equations derived earlier and after investigation of the absorption spectra and pH- and reagent-dependence of the extraction of the chelates involved. For the purpose of spectrophotometric extractive titration of copper with PAN the formation and extraction of ion-association pairs CuPAN +·Br − and CuPAN +·CNS − were studied in detail. This titration was found to be highly selective. Dilute solutions of PAN in ethanol are much more stable than solutions of dithizone.

Chelatometric titration of copper, zinc or cadmium by potentiometric method

Each metal ions in mixtures of copper, zinc or cadmium and other heavy metal were examined as to be titrated together or separately by potentiometric method in many kinds of buffer solutions by using the recording titration apparatus (RAT-IS) which describes the titration curve automatically for the indication of the end point. The suitable kinds of buffers were discloseb for EDTA titration of copper, zinc or cadmium in mixtures with other heavy metals.

Reductimetric Titration of Copper(II) with Iron(11) in Phosphoric Acid by the Potentiometric Method

リン酸中において白金を指示電極とし,参照電極に飽和カロメル電極を用いて,銅(II)の鉄(II)溶液による電位差還元滴定について研究した。その結果・リン酸中で臭素イオンまたは塩素イオンが存在するときには反応が進行して滴定曲線がえられ,この還元反応はハロゲンイオンが銅(II)に対して等モル量以上共存することが必要であった。溶媒のリン酸濃度については13mo1/l以上で定量に適する電位変化を生じた。以上のことから,14mol/lリン酸中で2-25倍モル量のハロゲンイオンの共存下で銅(II)の定量を行なったところ.臭素イオン共存下では相対誤差±2%以内の良好な定量結果をえた。銅(II)と臭素イオン共存のリン酸溶液は290mμ に極大吸収を示し,錯体の生成が認められた。この吸収を利用して連続変化法および平衡濃度法により検討した結果.この錯体の組成はCu:Br=1:1で,安定度定数は室温で0.87あった。滴定による反応生成物の白色沈殿は臭化銅(I)であることがわかった.

Studies on imidazole derivatives as chelating agents—V : Investigations of the applicabilities of the azoimidazoles as metallochromic indicators

Applicabilities of several azoimidazoles as metallochromic indicators were investigated in the light of the general equations expressing the colour change of the visual chelatometric titrations. By using the stability constants of the nickel(II), copper(II), zinc(II) and cadmium(II) chelates, the useful pH ranges, titration errors and sharpness of colour changes were predicted theoretically and the usefulness of these reagents as indicators was established experimentally. The Cu(II)-EDTA-indicator system was also examined experimentally. The OH-containing azoimidazoles could be applied to the direct titration of copper, nickel, zinc, cadmium, lead and bismuth and to the titration of calcium and cobalt in the presence of Cu(II)-EDTA. Attempts were made to construct diagrams for the estimation of titration errors and sharpness of colour changes.

Titrages “thermochimiques” par formation de fluorures complexes de fer, aluminium, antimoine, etain et plomb

A thermochemical study of the titration of aluminium, iron, copper, lead, tin and antimony salts with sodium fluoride is described. The destruction of fluoride cumplexes by boric acid has been studied. The measurement apparatus consists of two thermistors and a bridge. Clear breaks were obtained for iron, aluminium, copper and lead but no separation of iron and aluminium was possible. The action of boric acid also gave clear breaks in the curves.

Heterocyclic azo dyestuffs in analytical chemistry. Part II. The ligand properties of 2-(2-pyrimidylazo)-1-naphthol and its sulphonated analogues

The preparation, from 2-hydrazinopyrimidine and the respective 1,2-naphthaquinones, of 2-(2-pyrimidylazo)-1-naphthol and its derivatives containing sulphonic acid groups in positions 4 to 8 of the naphthalene ring, respectively, is described. The metal-complexing properties of the dyes have been studied, and they are critically compared with their pyridyl analogues as analytical reagents. The dyes produce larger bathochromic shifts on chelation, and form complexes of lower stability. These two facts indicate that the dyes should be capable of higher selectivity than their pyridyl analogues. They are found to be better indicators for the titration of copper and better chromatographic spray reagents than their pyridyl analogues.

Amperometric titration of copper and cadmium in the presence of zinc, cobalt and nickel with sodium diethyldithiocarbamate

The reaction of some metal ions with diethyldithiocarbamate in 0·1 M sodium hydroxide solution is investigated polarographically. Methods are presented for the amperometric titration of cadmium in the presence of zinc and cobalt, and of cadmium and copper in admixture.

Heterocyclic azo dyestuffs in analytical chemistry. Part I. The ligand properties of 2-(2-pyridylazo)-1-naphthol and its sulphonated analogues

The preparation, from 2-hydrazinopyridine and the respective 1,2-naphthaquinones, of 2-(2-pyridylazo)-1-naphthol (α-PAN) and its derivatives containing sulphonic acid groups in positions 4 to 8 of the naphthalene ring, respectively, is described. The metal-complexing properties of the dyes are discussed in relationship to the position of the sulphonic acid group, and compared with those of 1-(2-pyridylazo)-2-naphthol (β-PAN). The dye with the sulphonic acid group in position 8 appears to be the most promising colorimetric reagent. All the new dyes are shown to be superior indicators to β-PAN for the complexometric titration of copper.

Amperometric titration of palladium, silver and copper with benzimidazol-2-ylmethanethiol, and its application to non-ferrous materials

A method is described for the determination of mg amounts of palladium, silver and copper by amperometric titration with benzimidazol-2-ylmethanethiol in acetate buifer medium (pH 4–5) at an applied potential of −0.2 V vs. the saturated calomel electrode. Direct titrations are possible in the presence of a number of foreign ions. Copper and palladium interfere mutually and in the determination of silver. Mercury(I), mercury(II) and platinum(IV) also interfere. Silver does not interfere in the determination of copper and palladium if it is first precipitated as chloride. The method has been successfully applied to the analysis of non-ferrous materials.

Titration of iron(lll) and copper with EDTA using N-benzoyl-N-phenylhydroxylamine as indicator

Titration of iron(lll) and copper with EDTA using N-benzoyl-N-phenylhydroxylamine as indicator

Complexometric titration of copper (II) using chromotropic acid dioxime as a metal indicator

Chromotropic acid dioxime forms purple coloured complexes with copper in the pH ranges 5.82 to 6.45 and 7.25 to 8.05 respectively which are less stable than the CuII-EDTA complex. On titrating these solutions with EDTA, the purple coloured complexes turn colourless or yellow at the end point. These titrations give satisfactory results in the temperature ranges 20 to 70° C and 20 to 50° C respectively. In acid medium, the titration of copper can be carried out in the presence of magnesium and alkaline earths, but zinc, cadmium, nickel, cobalt, aluminium and iron(III) interfere. The latter two elements can be masked by sodium fluoride. In ammoniacal medium, zinc, cadmium, cobalt, nickel, lead, magnesium and alkaline earths interfere.

An investigation of the chelatometry of Cu II with ethylenediamine- N, N', N', N- tetra-n-propionic acid

A selective new polyaminocarboxylic acid-metallochromic indicator system is proposed for the accurate and interference-free titration of copper in aqueous solution in the presence of other metals such as Pb, Zn, Cd, Al, Mg, Ca, Ba, Sr, etc. No separations or addition of masking agents are necessary in this procedure. Nickel interferes only slightly.

Amperometric titration of copper with diallyldithio-carbamidohydrazine

Small amounts of copper(II) can be titrated with diallyldithiocarbamidohydrazine using amperometric end-point detection. The titration may be performed in the presence of air by short-circuiting the dropping mercury electrode with the reference electrode and measuring the limiting current of excess reagent after the end-point with a galvanometer. Few metals interfere. The time required for one determination is 10–15 min.

Use of nitrosochromotropic acid as a metal indicator

Nitrosochromotropic acid and copper give a purple coloured complex in the pH range 5.8–6.5, which is less stable than Cu(II)-EDTA complex. When milligramme quantities of copper solution containing few drops of nitrosochromotropic acid were titrated with EDTA the colour changes to light green or colourless. Copper can be titrated from 15–30° C, but at higher temperature low results are obtained due to dissociation of copper complex. Alkaline earths do not interfere in the titration of copper, but zinc, cadmium, nickel, cobalt, aluminium and iron(III) interfere. The interference of aluminium and iron(III) is masked by sodium fluoride. Microtitration can be carried out using nitrosochromotropic acid screened with xylene cyanol FF as metal indicator.