Spectrophotometric determination of palladium with 2-mercaptomethyl-benzimidazole

Summary A spectrophotometric method has been developed for the determination of palladium with 2-mercaptomethyl-benzimidazole. This involves extraction of the palladium complex into iso-amyl alcohol in presence of 0.3 to 2N hydrochloric acid and 0.45 to 1.4M ammonium sulfate. The color is very stable and is highly selective for palladium. At 380 nm it obeys Berr's law in the concentration range of 1 to 9g of Pd per ml; the optimum range being 4 to 8g. The sensitivity and molar absorptivity of the reaction are 0.019g of palladium per cm² and 5600±70 respectively. The continuous variation and molar ratio methods indicate that palladium forms 12 complex with the ligand.

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Zusammenfassung Eine spektrophotometrische Methode zur Bestimmung von Palladium mit 2-Merkaptomethylbenzimidazol wurde ausgearbeitet. Der Palladiumkomplex wird mit Isoamylalkohol in Gegenwart von 0,3- bis 2-n Salzsäure und von 0,45- bis 1,4-m Ammoniumsulfat extrahiert. Die Farbe ist sehr beständig und sehr selektiv für Palladium. Bei 380 nm entspricht die Färbung dem Beerschen Gesetz zwischen 1 und 9g Pd/ml; der optimale Konzentrationsbereich liegt zwischen 4 und 8g. Die Empfindlichkeit der Reaktion beträgt 0,019g Pd/cm²und die molare Absorption 5600±70. Die Untersuchung nachJob ergab für den Komplex das Molverhältnis Pd: Reagens= 12.

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Résumé On a mis au point une méthode spectrophotométrique pour le dosage du palladium par le mercaptométhyl-2 benzimidazole. Elle met en jeu l'extraction du complexe du palladium par l'alcool isoamylique en présence d'acide chlorhydrique 0,3 à 2N et de sulfate d'ammonium 0,45 à 1,4M. La coloration est très stable et bien sélective pour le palladium. A 380 nm, elle suit la loi de Beer dans le domaine de concentration de 1 à 9g de Pd par ml; le meilleur domaine s'étend de 4 à 8g. La sensibilité et l'absorbance molaire de la réaction sont respectivement de 0,019g de palladium par cm² et 5600±70. Les méthodes des variations continues et du rapport molaire indiquent que le palladium forme un complexe 1,2 avec le coordinat.

     

Spectrophotometric determination of palladium with pyridine-2-aldehyde-2-quinolylhydrazone

A new, sensitive colorimetric procedure for the determination of microgram quantities of palladium(II) with pyridine-2-aldehyde-2-quinolylhydrazone is described. The reaction is practically instantaneous and not sensitive to variations in salt concentration. The platinum group metals do not interfere, and the analysis is possible with milligram amounts of these metals present.     

Spectrophotometric determination of palladium with 5,6-dimethyl-1,3-indanedione-2-oxime

A rapid, sensitive and selective method has been developed for the determination of palladium with 5,6-dimethyl-1,3-indanedione-2-oxime in acetate buffer (pH 5.5). Beer's law is obeyed over the range 0.15-4.17 mug/ml palladium(II). The molar absorptivity at 370 nm is 2.98 x 10(4) 1.mole(-1).cm(-1). The method has been applied for the determination of palladium in synthetic mixtures corresponding to PtIr and Oakay alloys. An interesting feature of the system is the abnormal shape of the Job and molar-ratio plots obtained.     

Spectrophotometric determination of palladium(II) with 2-diethylaminoethanethiol hydrochloride and the simultaneous determination of rhodium and palladium

2-Diethylaminoethanethiol hydrochloride is proposed for spectrophotometric determination of palladium(II). The sensitivity of the reaction is 0.0085 smg/cm² and the yellow colored complex shows absorption maxima at 258 mμ and 303 mμ. Color development is slow in the cold but complete after heating for 10–15 min. The optimum pH range is 3.5 to 5.5 and the system adheres to Beer's law between 0.2 and 16.8 p.p.m. of palladium. The average and maximum relative standard deviations were 0.60% and 1.40% respectively. Interferences due to other platinum metals were studied and a procedure is suggested for the simultaneous determination of rhodium and palladium.     

Spectrophotometric determination of palladium with 4-(2-pyridylazo)resorcinol

Summary A simple photometric method for the determination of palladium has been worked out, employing pyridylazo-resorcinol (PAR) as a complexing ligand for the metal ion. The coloured species is extractable into chloroform in the presence of diethylamine, the absorbance of which is measured at 535 nm. The method is free from the interference of a large number of elements particularly the other platinum metals. It obeys Beer's law in the range of 0–3 g Pd/ml with Sandell's sensitivity of 0.0034 g Pd cm^–2. The ratio of metal to ligand in the complex is found to be 1:1. Analysis of various samples has been carried out with satisfactory and reproducible results (standard deviation ±0.002).     

Spectrophotometric determination of palladium using 4-methyl-l ,2-cyclohexanedionedioxime

A procedure for the determination of palladium with 4-methyl-1,2-cyclohexanedionedioxime by an extraction -spectrophotometric method has been developed. Interference by coppcr(II), cobalt(Il), iron(II), or iron(III) can be eliminated by suitable masking agents. Ruthenium(III) must be absent or separated prior to the determination of palladium. The molar absorptivity of the bis(4-methyl-1,2-cyclohexanedionedioximato-N,N') palladium(II) complex has been calculated and found to be 1.51?10⁴ 1/moles-cm in chloroform at 280 mμ.     

Spectrophotometric determination of palladium with sulfochlorophenolazorhodanine by flow injection

Sulfochlorophenolazorhodanine (as its sodium salt) has been used in the automated development of a sensitive flow-injection procedure for the spectrophotometric determination of palladium. The resulting method has high sample throughput, good precision, and low consumption of both sample and reagents. The optimum pH for the reaction is 5.0 and the response is constant at pH between 4.7 and 5.3. The sensitivity (calibration slope) of the procedure is 4.4 x 10(3) l./mole. The linear dynamic range is 0.045-30.0 mug/ml. The sample throughput is at least 120/hr. An automated procedure for optimization of analytical variables is described and a two-variable response surface for the system is given. Interference studies on 19 metal ions show that the method has good selectivity.     

Spectrophotometric determination of palladium with 2,2′-diquinolyl ketoxime

Summary A visible Spectrophotometric method is described for the determination of palladium with 2,2-diquinolyl ketoxime. The effects due to p_H, time, solvents, reagent concentration and diverse ions are reported. Beer's law is obeyed and the molar extinction coefficient is 1.3·10⁴ at 478 nm. The incorporation of EDTA into the procedure results in a highly specific method for the determination of trace amounts of palladium.

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Zusammenfassung Die spektralphotometrische Bestimmung von Palladium mit 2.2-Dichinolylketoxim wurde beschrieben. Über den Einfluß von p_H, Zeit, Lösungsmitteln, Reagenskonzentration und von diversen Fremdionen wurde berichtet. Das Beersche Gesetz ist erfüllt. Der molare Extinktionskoeffizient beträgt bei 478 nm 1.3·10⁴. Die Einführung von ÄDTA in das Verfahren führt zu einer hochspezifischen Bestimmung von Palladiumspuren.

     

Spectrophotometric determination of palladium with glyoxime and chloroform extraction

Palladium(II) reacts with glyoxime in a 1:2 mole ratio to form a yellow water-insoluble chelate, which is soluble in chloroform; the solution has an absorption maximum at 397 mμ. Absorbance measurements at 397 mμ allow determination of the palladium glyoximate in solution. The maximum amount of palladium is extracted at pH 1.0. Platinum(II), iridium(III), gold(III), and phosphate cause some positive interference, and iron(II, III) causes negative interference; the interferences can be eliminated by masking with EDTA. The species extracted has been shown to be identical with that used to prepare the original palladium glyoximate chloroform solution. With EDTA and multiple extractions, the method is satisfactory for the determination of palladium in the presence of other platinum-group elements and many other cations.     

Spectrophotometric determination of palladium using arsenazo I

A new simple rapid method for the spectrophotometric determination of palladium using arsenazo I is given. The optimum conditions favoring the formation of the complex are extensively investigated; the molecular structure was found to be 1:1. Beer's law is obeyed for the ranges 1.0–10.6 or 0.64–6.39 ppm of Pd.     

Spectrophotometric determination of traces of palladium after coprecipitation with tellurium

A spectrophotometric method for the determination of microgram amounts of palladium in the présence of much iron, copper, nickel, cobalt and other common elements (~ 0.5 g) is described. Palladium is separated by stannous chloride precipitation with tellurium as collector. p-Nitroso-diphenylamine is used as the colorimetric reagent, and diethyl oxalate as extradant for the palladium complex (sensitivity = 0.0015 μg $\text{Pd}\text{cm}{}^2$ ≡ log {I₀/I} = 0.001). Silver, selenium and tungsten lead to low results and should not exceed ~ 0.1 mg. The weight ratio Au/Pd should not exceed 10, else results for palladium are high. For Pd > 1 μg, recoveries average 90% or. better.     

Spectrophotometric determination of palladium in titanium-base alloys, with dimethylglyoxime

A rapid spectrophotometric method for the determination of 0.1-1.0% of palladium in titanium alloys with dimethylglyoxime is described. The complex is extracted with chloroform and its absorbance measured at 380 nm. Beer's law is obeyed and the molar absorptivity is 170 l.mol(-1).mm(-1). None of the elements in common titanium alloys interfere. The method is rapid, simple and reproducible.     

Spectrophotometric determination of palladium as tetraphenylarsonium palladium(II) trichlorostannate

The optimum conditions for the formation of the complex, tetraphenylarsonium palladium(II) trichlorostannate, and its extraction into chloroform have been ascertained and a method has been developed for the spectrophotometric determination of microgram amounts of palladium in the presence of many other elements.     

Spectrophotometric determination of palladium with 4-(2-pyridylazo)-resorcinol (PAR)

Summary A spectrophotometric method for the determination of palladium is described using 4-(2-pyridylazo)-resorcinol as reagent. The method involves the formation of two red coloured chelates of palladium-PAR at p_H 4.0 and 10.5 respectively. The colour reactions have sensitivity of 0.0085g cm^–2 and 0.0071g cm^–2 for logI ₀/I= 0.001. The effects of p_H, time, order of addition of reagents, temperature etc. have been investigated. The composition of the complexes (metalreagent) have been confirmed by two methods as 11 (at p_H 4.0) and 32 (at p_H 10.5).

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Zusammenfassung Eine spektrophotometrische Methode zur Palladiumbestimmung mit PAR [4-(2-Pyridylazo)-resorcin] wurde beschrieben. Zwei rotgefärbte Chelate werden bei p_H 4,0 bzw. 10,5 gebildet. Die Empfindlichkeit der beiden Reaktionen beträgt 0,0085 bzw. 0,0071g · cm^–2. Der Einfluß von p_H, Zeit, Reihenfolge der Reagenzien, Temperatur usw. wurde untersucht. Die Zusammensetzung der Komplexe entspricht dem Molverhältnis Pd: Reagens= =11 bei p_H 4,0 bzw. 32 bei p_H 10,5.