Electrothermal atomic-absorption spectrophotometric determination of molybdenum

The sensitivity for determining Mo by ETA-AA is dependent on the heating programme employed when the peak-height method is used, but not when the peak area is used for evaluation of the AA signals. The linear range is greater at lower heating rate. Molybdenum can be directly determined in up to 8% NaCl solution without chemical pretreatment or background correction by making use of the high ashing temperature allowed, at which the matrix NaCl can be totally removed. The minimum recovery is 94.5%. Amounts of alkaline earth metals greater than 4000 times the amount of Mo give scatter signals, but these are time-resolved from the Mo signal. Any small effect on the peak height or area can be compensated for by background correction. The interference of tungsten is significant even at low concentrations (2-5 mug/ml) owing to the formation of stable compounds. Mo is determined in brines and acid digests of phosphate rocks after preconcentration and separation with the APDC-MIBK system, by ETA-AA of the organic extracts with or without mineralization.     

Pre-column chelation liquid chromatographic separation and determination of trace V,Cu, Co,Pd, Fe and Ni

Conditions for the separation by reversed-phase liquid chromatography (LC) of V(V), Cu(II), Co(III), Pd(II), Fe(III) and Ni(II) chelates with 2-(5-bromopyridylazo)-5-diethylaminophenol (5-Br-PADAP) were studied. Six species of metal chelates were separated successfully with methanol-acetonitrile-water (72:12:16, v/v/v) containing 0.13 M NaCl and 0.29 mM cetyltrimethylammonium bromide (pH 5.0) as the mobile phase on a Nucleosil C₁₈ (5 μm) column (250 × 4 mm i.d.).The conditions of the determination of these metal chelates are discussed. A simple and rapid method for the determination of trace amounts of V(V), Cu(II), Co(III), Pd(II) and Ni(II) simultaneously by reversed-phase LC has been developed. The detection limits are 5 × 10^?12, 1 × 10^?10, 3 × 10^?11, 5.3 × 10^?9 and 2 × 10^?10 g, respectively. The method is applied to the determination of these metals in natural waters and mineral samples.     

Precise titrimetric determination of uranium in high-purity uranium compounds

A procedure has been developed for the very precise determination of uranium in high-purity uranium compounds. Uranium(VI) is reduced in a strong hydrochloric acid solution with aluminium in the presence of cadmium ions to uranium(III). It is oxidised to uranium(IV) in the presence of excess orthophosphoric acid and then quantitatively oxidised to uranium(VI) with potassium dichromate using a potentiometric end-point detection. The coefficient of variation based on 20 analyses is -/+ 0.003%.     

Solid-phase extraction and simultaneous spectrophotometric determination of trace amounts of Co, Ni and Cu using partial least squares regression

A novel sensitive and simple method for rapid extraction, preconcentration and determination of cobalt, nickel and copper as their 1-(2-pyridilazo)-2-naphthol (PAN) complexes using polytetrafluoroethylene filter as solid phase and multivariate calibration of spectrophotometric data is presented. The analytical wavelengths of 400-700 nm were chosen and the experimental calibration matrix for partial least squares (PLS) was designed with 21 samples of 5.90-41.25, 0.30-29.35 and 0.64-41.30 ng ml⁻¹ for cobalt, nickel and copper, respectively. The cross-validation method was used for selecting the number of components. The root-mean-square errors of predictions (RMSEPs) were between 0.48 and 1.37 ng ml⁻¹. In this work we could reach preconcentration factors of 100 or even higher by using polytetrafluoroethylene as solid phase which is cheap and can be used in a wide range of pH, flow rates and for many times. The proposed method was successfully applied to the simultaneous determination of Co, Ni and Cu in tap and pit water samples.     

Determination of Cd, Co, Cu, Fe and Ni at parts per billion level in high-purity gallium by graphite furnace atomic absorption spectrometry (GFAAS)

Summary The determination of Cd, Co, Cu, Fe and Ni in 6N gallium by GFAAS is reported. The analytes are extracted as pyrrolidine dithiocarbamates into methyl-iso-butyl-ketone (MIBK) in the presence of tartrate. The conditions of extraction, quantity of reagents required and the matrix interference aspects are discussed. The method offers one-step matrix removal and preconcentration, leading to low experimental blanks.     

Selective spectrophotometric determination of uranium

Uranium(VI) (10–100 μg) is extracted with 2% dibenzoylmethane in benzene at pH 6–7 while other cations are masked with CDTA (maximum of 8 μg/100 ml). Shaking with 6 M hydrochloric acid reintroduces uranium(VI) into the aqueous phase, where after evaporation and complexation with Arsenazo III in 0.02 M hydrochloric acid the final measurement of absorbance at 650 nm is performed. Iron(III), copper(II), aluminum, and zinc do not interfere even if present in amounts of 15–19 mmol.     

Direct AAS determination of Co, Cr, Cu, Mn and Ni in U3O8 by electrothermal atomization

Summary An atomic absorption spectrometric method has been developed for the determination of chromium, cobalt, copper, manganese and nickel in U₃O₈ by electrothermal atomization of 5 mg powder samples. Nanogram amounts of all the elements can be estimated with a precision ranging between 7–12%. The non-specific absorption due to U₃O₈ for these measurements is negligible. The use of graphite powder with U₃O₈ in equal or double the sample amount improves sensitivity for the analyte element and prolongs the life of the atomizer.

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Direkte AAS-Bestimmung von Co, Cr, Cu, Mn und Ni in U₃O₈ durch elektrothermische Atomisierung

Zusammenfassung Das entwickelte AAS-Verfahren geht von pulverförmigen 5mg-Proben aus. Nanogramm-Mengen der genannten Elemente können mit einer Genauigkeit im Bereich von 7–12% bestimmt werden. Die durch U₃O₈ verursachte unspezifische Absorption ist zu vernachlässigen. Durch Graphitzusatz (in der gleichen oder doppelten Menge der Probe) wird die Empfindlichkeit der Bestimmung verbessert und die Lebensdauer des Atomizers verlängert.

     

Ion-chromatographic determination of divalent metal ions (Co, Ni, Cu, Zn, Cd) using EDTA as complexing agent

Summary Metal ions, such as cobalt, nickel, copper, zinc and cadmium, were separated as the anionic metal-EDTA complexes using an ion-chromatograph equipped with anion separator system. The separated complex anions in the eluent (3×10^–3 M NaHCO₃/2.4×10^–3 M Na₂CO₃) were detected by conductivity measurement. When 100 l of the sample solution containing 10^–4 M EDTA was introduced into the analytical system, up to 5.0 ppm of metal ions were determined. The method was applied to the determination of metal ions in plating solution and waste water samples. When the sample solution was introduced into the system, a chromatogram of anions in the sample was obtained. Then the sample solution with EDTA was introduced and a chromatogram of anions and metal-EDTA complexes was obtained. The metals were determined from the difference of the former and the latter chromatograms.

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Ionen-chromatographische Bestimmung von zweiwertigen Metallionen (Co, Ni, Cu, Zn, Cd) mit Hilfe von EDTA als Komplexierungsmittel

Zusammenfassung Die Metallionen wurden als anionische Metall-EDTA-Komplexe getrennt, wobei ein Ionenchromatograph mit Anionenseparatorsystem benutzt wurde. Die getrennten Anionenkomplex-Ionen wurden im Eluat (3 · 10^–3 M NaHCO₃/2,4 · 10^–3 M Na₂CO₃) durch Leitfä-higkeitsmessung erfaßt. In 100 l Probelösung mit 10^–4 M EDTA konnten 5,0 ppm Metall bestimmt werden. Das Verfahren wurde auf galvanische Lösungen und Abwasser angewendet. Bei Einführung der Probelösung in das System erhält man ein Chromatogramm der vorhandenen Anionen. Wenn dann Probe + EDTA injiziert wird, ergibt sich ein Chromatogramm der Anionen und Metall-EDTA-Komplexe. Die Metallgehalte resultieren aus der Differenz.

     

Chemical probes of metal cluster structure - Fe,Co, Ni and Cu

Chemical reactivity is one of the few methods currently available for investigating the geometrical structure of isolated transition metal clusters. In this paper we summarize what is currently known about the structures of clusters of four transition metals, Fe, Co, Ni, and Cu, in the size range from 13 to 180 atoms. Chemical probes used to determine structural information include reactions with H₂ (D₂), H₂O, NH₃ and N₂. Measurements at both low coverage and at saturation are discussed.     

Separation and spectrophotometric determination of trace elements in high-purity cadmium

Zusammenfassung Die Spurenanalyse zur Bestimmung von Ag, Al, Bi, Co, Cu, Ga, Hg, In, Mn, Ni, Pb, Tl und Zn in reinstem Cadmium wurde ausgearbeitet. Nach dem vorgeschlagenen Schema werden einzelne Gruppen von Spurenelementen durch Extraktion bzw. Mitfällung getrennt und spektrophotometrisch mit Hilfe der folgenden organischen Reagenzien bestimmt: Dithizon, PAN, PAR, Rhodamin B, Brillantgrün, Chromazurol S, 1-Nitroso-2-naphthol und-Furildioxim. Durch die Analyse einer Cadmiumprobe mit dem Zusatz bekannter Mengen der zu bestimmenden Elemente wurden Genauigkeit und Präzision der vorgeschlagenen Methode erwiesen.     

Zur polarographischen Bestimmung von Spuren von Cu, Ni, Co, Zn und Cd in Gesteinen

Ohne Zusammenfassung     

Analytical performance of a multi-element ICP-AES method for Cd, Co, Cr, Cu, Mn, Ni and Pb determination in blood fraction samples

An analytical method using inductively coupled plasma atomic emission spectrometry (ICP-AES) for rapid simultaneous determination of seven heavy metals (Cd, Co, Cr, Cu, Mn, Ni and Pb) in human blood fractions, like plasma, cells fraction and whole blood, is performed. The optimum wavelength was selected using as criterions the sensitivity, the linearity and recovery of aqueous standard solutions. The pretreatment of the sample, the centrifugal conditions, the necessity of digestion and the dilution of the digests were also studied. For plasma it was possible to avoid digestion of the sample, but for cells fractions and whole blood the digestion is necessary. The samples were acid-digested by HNO₃ in closed Teflon tubes under high temperature and pressure conditions and were diluted before injection into ICP-AES. Also, optimization of the inductively coupled plasma conditions like nebulizer argon flow rate, sample flow rate and power of radio frequency was performed for each analyte. Finally, the effect of the type of the employed calibration technique on the total variation of the method was examined. Calibration using the standard addition technique was proved more accurate for the determination in terms of analyte recovery. The sensitivity and recovery (Cd 99%, Co 101%, Cr 100%, Cu 99%, Mn 101%, Ni 100% and Pb 97%) of the developed method are presented for all examined blood fractions. Correspondence: George A. Zachariadis, Laboratory of Analytical Chemistry, Department of Chemistry, Aristotle University, Thessaloniki 54124, Greece     

人工神经网络光度法同时测定土壤中铅-镉-镍

研究了以4－（2－吡啶偶氮）－间苯二酚（PAR）为显色剂、十二烷基硫酸钠（SDS）为增敏剂、乙酸－乙酸钠为缓冲液，在水相中对铅、镉、镍进行同时测定。利用二次回归正交组合设计，对体系因子进行了优化。以苏州吴县水稻田土壤为研究对象，利用反向人工神经网络对其中铅、镉、镍的全量、有效态、活化态分别进行了同时测定，预测结果与AAS法所测结果基本一致。