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Determination of mercury by multisyringe flow injection system with cold-vapor atomic absorption spectrometry

A new software-controlled time-based multisyringe flow injection system for mercury determination by cold-vapor atomic absorption spectrometry is proposed. Precise known volumes of sample, reducing agent (1.1% SnCl 2 in 3% HCl) and carrier (3% HCl) are dispensed into a gas–liquid separation cell wit...

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Bibliographic Details
Published in:Analytica chimica acta 2006-07, Vol.573, p.399-405
Main Authors: Leal, L.O., Elsholz, O., Forteza, R., Cerdà, V.
Format: Article
Language:English
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Summary:A new software-controlled time-based multisyringe flow injection system for mercury determination by cold-vapor atomic absorption spectrometry is proposed. Precise known volumes of sample, reducing agent (1.1% SnCl 2 in 3% HCl) and carrier (3% HCl) are dispensed into a gas–liquid separation cell with a multisyringe burette coupled with one three-way solenoid valve. An argon flow delivers the reduced mercury to the spectrometer. The optimization of the system was carried out testing reaction coils and gas–liquid separators of different design as well as changing parameters, such as sample and reagents volumes, reagent concentrations and carrier gas flow rate, among others. The analytical curves were obtained within the range 50–5000 ng L −1. The detection limit (3 σ b/ S) achieved is 5 ng L −1. The relative standard deviation (R.S.D.) was 1.4%, evaluated from 16 successive injections of 250 ng L −1 Hg standard solution. The injection and sample throughput per hour were 44 and 11, respectively. This technique was validated by means of solid and water reference materials with good agreement with the certified values and was successfully applied to fish samples.
ISSN:0003-2670
1873-4324
DOI:10.1016/j.aca.2006.04.078