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Quantitative determination of chloride by means of flow injection analysis with spectrophotometric detection in the UV/VIS range (1994)

Krämer, Dietmar ; Rosenberg, Erwin ; Krug, Achim ; [et al.]

Springer

Microchimica acta 116 (1994), S. 183-189

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ISSN: 1436-5073

Keywords: chloride determination ; flow injection analysis ; mercury ; thiocyanate ; chloranilate

Source: Springer Online Journal Archives 1860-2000

Topics: Chemistry and Pharmacology

Notes: Abstract Chloride is determined indirectly by Spectrophotometric flow injection analysis. Two systems are compared, both based on the principle of ion exchange of easily detectable anions versus chloride from suitable mercury salts. The first method is based on the exchange of chloride with chloranilate which is detected at 332 nm or at 306 nm in neutral or in acidic medium respectively. In the second case, chloride reacts with Hg(SCN)2. The liberated thiocyanate forms a strongly coloured complex with Fe(III) in acidic solution with an absorption maximum at 460 nm. Both methods have a detection limit of about 5 μmol Cl−/l (175 ng/ml). In the case of the thiocyanate method, the relative standard deviation is about 2% (7 measurements) in the range of 5 to 150 μmol/l and decreases significantly to a value of approximately 0.2% at higher concentrations; for the chloranilate method it is 10% for lower and about 1% for higher concentrations respectively.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF01260363

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Determination of citric acid by means of competitive complex formation in a flow injection system (1994)

Krug, Achim ; Kellner, Robert

Springer

Microchimica acta 113 (1994), S. 203-210

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ISSN: 1436-5073

Keywords: citric acid ; flow injection analysis ; spectrophotometry ; complex formation

Source: Springer Online Journal Archives 1860-2000

Topics: Chemistry and Pharmacology

Notes: Abstract A photometric method for the determination of citrate and other organic acids based on their ability to complex Fe3+-ions is presented. The red colored complex of [Fe(SCN)2]+, used as reagent, is destroyed upon contact with the sample because the organic acid complexes the Fe3+-ion. The decrease in absorption is monitored at 460 nm. The reaction is carried out in a simple flow injection system either in single or preferably double channel configuration. The influence of pH was investigated. Best results were obtained by adjusting the carrier stream to pH 2.0–2.5 with a KCl/HCl-buffer. With an increasing concentration of reagent the linear range is shifted to higher citrate concentrations. The slope of the calibration graph and the linear range are influenced by the sample volume. Other variations of parameters include flow rate, reactor volume and diameter of tubing. Generally speaking, optimum conditions for the flow system are not specified because they vary with the application. The typical conditions for a calibration graph from 1 to 8 mmol/l citrate were a reagent concentration of 2.6 mmol/l [Fe(SCN)2]+, a flow rate of 2.4 ml/ min, a reactor length of 50 cm with tubing of 0.97 mm inner diameter and a sample volume of 100 μl. At these system settings the coefficients of variation were 2.5% and 1.6% for eight replicate measurements of samples containing 4 mmol/l and 8 mmol/l citrate, respectively. Up to 180 samples can be analyzed per hour. Naturally the method is disturbed by all other ions that form complexes or precipitates with Fe3+-ions. Therefore its application is limited to samples with a known matrix, which was given in the analysis of citrate in lemon flavored soft drinks, where the citric acid usually accounts for 95 to 99% of the total acidity and other interfering ions are absent.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF01243611

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