Spectrophotometric determination of micro amounts of hydrazine and hydroxylamine alone and in the presence of each other

Hydrazine and hydroxylamine alone or in the presence of each other are determined at concentrations of 1-10 microg/25 ml with a relative precision of 3-0.8% by using iron(III) in the presence of Ferrozine.     

Spectrophotometric determination of hydroxylamine and its derivatives in pharmaceuticals

A sensitive spectrophotometric method for the determination of hydroxylamine is described. The method is based on the oxidation of hydroxylamine to nitrite using sodium arsenate under alkaline condition. The formed nitrite is determined based on the diazo coupling reaction between p-nitroaniline and N-(1-naphthyl)ethylenediamine dihydrochloride [NEDA]. The system obeys Beer's law over the concentration range 0-7 microg of hydroxylamine at 545 nm and the colour is stable for 3 h. The molar absorptivity of the colour system is found to be 6.7 x 10(4) l mol(-1) cm(-1). The relative standard deviation is 1.2% for ten determinations at 4 microg of hydroxylamine. Interferences due to various foreign ions have been studied and the method has been applied to the determination of hydroxylamine and its derivatives used in pharmaceutical formulations after hydrolysis.     

Spectrophotometric determination of tartrate in the presence of citrate

Methods are described for the determination of 5–30 μg of tartrate alone and of 15–60 μg in the presence of up to 6 mg of citrate, based on oxidation by 3 moles or 1 mole of periodate respectively. The iodate formed is determined spectrophotometrically at 350 nm as tri-iodide after reaction with iodide, the excess of periodate being masked with molybdate.     

Kinetics and mechanism of the reduction of monochloramine by hydroxylamine and hydroxylammonium ion

The kinetics and mechanism by which monochloramine is reduced by hydroxylamine in aqueous solution over the pH range of 5–8 are reported. The reaction proceeds via two different mechanisms depending upon whether the hydroxylamine is protonated or unprotonated. When the hydroxylamine is protonated, the reaction stoichiometry is 1:1. The reaction stoichiometry becomes 3:1 (hydroxylamine:monochloramine) when the hydroxylamine is unprotonated. The principle products under both conditions are Cl^–, NH⁺₄, and N₂O. The rate law is given by ?[d[NH₂Cl]/dt] = k₊[NH₃OH⁺][NH₂Cl] + k₀[NH₂OH][NH₂Cl]. At an ionic strength of 1.2 M, at 25°C, and under pseudo‐first‐order conditions, k₊= (1.03 ± 0.06) ×10³ L · mol^?1 · s^?1 and k₀=91 ± 15 L · mol^?1 · s^?1. Isotopic studies demonstrate that both nitrogen atoms in the N₂O come from the NH₂OH/NH₃OH⁺. Activation parameters for the reaction determined at pH 5.1 and 8.0 at an ionic strength of 1.2 M were found to be ΔH? = 36 ± 3 kJ · mol^–1 and Δ S? = ?66 ± 9 J · K^?1 · mol^?1, and Δ H? = 12 ± 2 kJ · mol^?1 and Δ S? = ?168 ± 6 J · K^?1 · mol^?1, respectively, and confirm that the transition states are significantly different for the two reaction pathways. © 2005 Wiley Periodicals, Inc. Int J Chem Kinet 38: 124–135, 2006     

Spectrophotometric determination of rhenium in the presence of molybdenum and tungsten

Summary Rhenium(VII) can be separated on a column of Al₂O₃ from a 500-fold excess of Mo(VI) and W(VI) and a 250-fold excess of Cr(III), Mn(II), Ni(II), Co(II), and Fe(III) by elution with 0.1M Nad. For photometric determination, rhenium(VII) is reduced with Sn(II), extracted as the thiocyanate complex into isopropyl ether, and measured at 430 nm. The sensitivity is 0.04 g/ml, if 10-mm cells are used. The interferences were examined statistically and found to be negligible.

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Zusammenfassung Rhenium(VII) läßt sich von einem 500fachen Überschuß an Mo(VI) und W(VI) sowie von einem 250fachen Überschuß an Cr(III), Mn(II), Ni(II), Co(II) und Fe(III) mit Hilfe einer Aluminiumoxidsäule trennen und daraus mit 0,1-m Kochsalz eluieren. Für die photometrische Bestimmung wird Rhenium(VII) mit Sn(II) reduziert, dann als Rhodanidkomplex mit Isopropyläther extrahiert und bei 430 nm gemessen. Bei Verwendung von 10-mm-Küvetten beträgt die Empfindlichkeit 0,04 g Re/ml. Störungen wurden statistisch geprüft und als unbeachtlich erkannt.

     

Salicylate-spectrophotometric determination of inorganic monochloramine

On the basis of classical Berthelot reaction, a simple salicylate-spectrophotometric method was developed for quantitative determination of inorganic monochloramine in water samples. With the catalysis of disodium pentacyanonitrosylferrate(III), inorganic monochloramine reacts with salicylate in equimolar to produce indophenol compound which has an intense absorption at 703 nm. Parameters that influence method performance, such as pH, dosage of salicylate and nitroprussiate and reaction time, were modified to enhance the method performance. By using this method, inorganic monochloramine can be distinguished from organic chloramines and other inorganic chlorine species, such as free chlorine, dichloramine, and trichloramine. The molar absorptivities of the final products formed by these compounds are below ±3% of inorganic monochloramine, because of the α-N in them have only one exchangeable hydrogen atom, and cannot react with salicylate to produce the indophenol compound. The upper concentrations of typical ions that do not interfere with the inorganic monochloramine determination are also tested to be much higher than that mostly encountered in actual water treatment. Case study demonstrates that the results obtained from this method are lower than DPD-titrimetric method because the organic chloramines formed by chlorination of organic nitrogenous compounds give no response in the newly established method. And the result measured by salicylate-spectrophotometric method is coincident with theoretical calculation.     

Spectrophotometric determination of iminodiacetic acid in presence of primary amino-acids

Iminodiacetic acid down to 10(-5)M is determined spectrophotometrically in the presence of primary amino-acids by complex-formation with iron(III) at pH 3.0-3.5. The method is simple, fairly accurate, rapid and free from interference from most common metal ions.     

Spectrophotometric determination of aluminum with bromopyrogallol red in the presence of surfactants

Spectrophotometric methods are described for the determination of microgram amounts of aluminum based on the formation of a ternary complex between the metal, bromopyrogallol red, and cetyltrimethylammonium bromide or nonylphenol tetradecaethylene glycol ether. The complexes have absorbance maxima at 627 and 612 nm, respectively, with molar absorptivities of 5.0 × 10⁴ and 2.2 × 10⁴ liter mol^?1 cm^?1. Numerous metals interfere. Aluminum can be easily separated by extraction of interfering ions with cupferron.     

Spectrophotometric determination of iron with 1,10-phenanthroline in the presence of copper

Summary Cupric ion forms a very stable complex with triethylenetetramine (trien). It has a very weak absorption at 400–460 nm, however, the ferroin shows a very strong absorption at 480–520 nm. The use of trien-tartrate as duel masking agents for copper has been proved to be successful, and is superior to EDTA or citrate-EDTA in the determination of iron with 1,10-phenanthroline. The colour reaction may be accelerated at 60° for 10 min. The new method has been applied to the analysis of U. S. NBS standard solder alloy samples for iron.

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Die spektrophotometrische Bestimmung von Eisen mit 1,10-Phenanthrolin in Gegenwart von Kupfer

Zusammenfassung Kupfer(II)ionen bilden mit Triethylentetramin (Trien) einen sehr beständigen Komplex. Dieser absorbiert sehr schwach bei 400–460 nm, Ferroin hingegen zeigt eine sehr starke Absorption bei 480–520 nm. Die Verwendung von Trien-Tartrat als Maskierungsmittel für Kupfer erwies sich als zielführend und ist für die Eisenbestimmung mit 1,10-Phenanthrolin besser geeignet als EDTA oder Zitrat-EDTA. Die Farbreaktion läßt sich durch Erwärmen auf 60°C für 10 min beschleunigen. Die vorgeschlagene Methode hat sich bei der Analyse von NBS-Standardproben von Lot-Legierungen bewährt.

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On leave from Nanking Institute of Chemical Technology, Nanking, China.     

Spectrophotometric determination of oxalic acid in presence of glyoxylic acid and chloride

Glyoxylic acid gives a yellow 1:1 complex, [FeCHOCOO]²⁺ with iron(III). The dissociation contant, measured by two spectrophotometric methods, is K = 9.7 ± 1 mol l^?1. Oxalic acid gives two complexes with iron(III) which absorb in the same range around 400 nm. With appropriate precautions and corrections, oxalic acid concentrations of about 10^?1–10^?2 M can be determined in the presence of glyoxylic acid and chloride.     

Spectrophotometric determination of molybdenum in the presence of tungsten using gallein and benzyldodecyldimethylammonium bromide

The chemical similarity between molybdenum and tungsten makes the direct spectrophotometric determination of these metals impossible. Usually the determination is preceded by a separation step. In order to find out a selective and quantitative isolation method, coprecipitation with thioacetamide and Cu(II) as a carrier; MnO₂; cupferron, tannin and crystal violet; quinolin-8-ol, tannin and thioacetamide, were examined. Molybdenum(VI) could be determined in the presence of 100-fold mass excess of tungsten after precipitation with thioacetamide and Cu(II). The remaining methods could only be applied if mass excess of W is equal to or lower with respect to Mo. For the resolution of this problem, the derivative spectrophotometry was used. The studies of different order spectra of gallein complexes of molybdenum, tungsten and their mixtures have shown that the fifth-derivative spectra allows one to eliminate the interfering effects of W on the determination of Mo. At 650 nm the spectral features of tungsten is zeroing while the value of the fifth-derivative spectrum of mixture of Mo and W corresponds only to the concentration of molybdenum in the examined solution. Beer’s law is obeyed in the range 0.32–0.80 μg/mL of Mo. The developed derivative spectrophotometric method and the most selective pre-separation method, based on the precipitation of molybdenum(VI) sulphide, were applied to the determination of Mo in Armco iron and steel. The accuracy of the elaborated methods was confirmed by comparison of the determined content of Mo with certified values as well as with the result obtained by the reference ICP-OES technique.     

Quantitative determination of hydroxylamine

This paper is a survey of 66 studies from the literature and presents a review of the quantitative methods most widely used for the determination of hydroxylamine and its salts. Volumetric, electrochemical and spectrophotometric methods are discussed, compared and evaluated.     

Spectrophotometric determination of zirconium with alizarin red S in the presence of polyvinylpyrrolidone

The absorbance of the microcolloidal zirconium/alizarin red S/polyvinylpyrrolidone complex is measured at 525 nm in acetate buffered medium at pH 4.75. The molar absorptivity is 3.8 × 10⁴ l mol^?1 cm^?1, which is much greater than that of the classical method. Sulphate and fluoride do not interfere.     

Spectrophotometric stability-indicating methods for the determination of leflunomide in the presence of its degradates

Five simple and sensitive methods were developed for the determination of leflunomide (I) in the presence of its degradates 4-trifluoromethyl aniline (II) and 3-methyl-4-carboxy isoxazole (III). Method A was based on differential derivative spectrophotometry by measuring the delta(1)D value at 279.5 nm. Beer's law was obeyed in the concentration range of 2.00-20.00 microg/mL with mean percentage accuracy of 100.07 +/- 1.32. Method B depended on first-derivative spectrophotometry and measuring the amplitude at 253.4 nm. Beer's law was obeyed in the concentration range of 2.00-16.00 microg/mL with mean percentage accuracy of 98.42 +/- 1.61. Method C was based on the reaction of degradate (II) with 2,6-dichloroquinone-4-chloroimide (Gibbs reagent). The colored product was measured at 469 nm. Method D depended on the reaction of degradate (II) with para-dimethyl aminocinnamaldehyde (p-DAC). The absorbance of the colored product was measured at 533.4 nm. Method E utilized 3-methyl-2-benzothiazolinone hydrazone in the presence of cerric ammonium sulfate with degradate (II). The green colored product was measured at 605.5 nm. The linearity range was 40.00-280.00, 2.40-24.00, and 30-250 microg/mL with mean percentage accuracy of 100.75 +/- 1.21, 100.13 +/- 1.45, and 99.74 +/- 1.39 for Methods C-E, respectively. All variables were studied to optimize the reaction conditions. The proposed methods have been successfully applied to the analysis of leflunomide in pharmaceutical dosage forms and the results were statistically compared with that previously reported.     

Spectrophotometric determination of vitamins D2 and K1 in presence of rutin

Summary Methods are given for determination of vitamin D₂ and K₁ in presence of rutin added as stabilizer, and applied to assessment of the rate of breakdown of these vitamins when exposed to ultraviolet light. Because the absorption maxima of these vitamins, rutin and some of the decomposition products are very near to each other a preliminary separation is necessary. Thin layer chromatography with chloroform on silica gel H is suitable.

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Spektropbotometrische Bestimmung von Vitamin D₂ und K₁ in Gegenwart von Rutin

Zusammenfassung Für die Bestimmung von Vitamin D₂ und Vitamin K₁ in Gegenwart von Rutin, das als Stabilisator zugegeben wird, wurden Methoden angegeben und zur Bestimmung der bei UV-Bestrahlung eintretenden Zersetzung dieser Vitamine angewendet. Da deren Absorptionsmaxima alle sehr nahe beieinander liegen, ist eine vorherige Trennung nötig. Dazu hat sich die Dünnschichtchromatographie mit Chloroform auf Silicagel H als geeignet erwiesen.

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Presented at the 8th International Microchemical Symposiums Graz, August 25–30, 1980.     

Spectrophotometric determination of osmium with 2R-acid in the presence of other platinum metals

Osmium(VIII) produces two coloured species with lambda(max) 680 nm (green) and 530 nm (red) with excess of 2-amino-8-naphthol-3,6-disulphonic acid in aqueous solution. The green complex is stable between pH 2.5 and 8.0 and the red complex between pH 11.0 and 12.0. The effects of temperature and time, reagent concentration, optimum conditions for the spectrophotometric determination of trace amounts of osmium, and other variables, have been studied at pH 11.5. At this pH, other platinum metals do not interfere. The sensitivity of the colour reaction is 0.2 microg/cm(2) and the system conforms to Beer's law over a concentration range of 1.5-10 microg of osmium.     

Spectrophotometric determination of aluminium with Chromal Blue G in the presence of cetyltrimethylammonium chloride

Summary Spectrophotometric Determination of Aluminium with Chromal Blue G in the Presence of Cetyltrimethylammonium Chloride Chromal Blue G (C. I. 43835) in the presence of cetyltrimethylammonium chloride is proposed for the spectrophotometric determination of microgram amounts of aluminium. The stoichiometric ratio of aluminium to Chromal Blue G is 14. Beer's law is obeyed from 0.01 to 0.16 ppm of aluminium. The molar absorptivity is 1.62×10⁵1·mole^–1·cm^–1 at 660 nm.