Rotating disk sorbent extraction for pre-concentration of chromogenic organic compounds and direct determination by solid phase spectrophotometry

A novel and very simple microextraction approach for pre-concentration and direct solid phase spectrophotometric measurement has been developed for the determination of chromogenic analytes. The model analyte to assess this approach was the chromophore malachite green (MG). The analyte was extracted...

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Bibliographic Details
Published in:Analytica chimica acta 2011-06, Vol.695 (1), p.73-76
Main Authors: Richter, Pablo, Cañas, Alejandro, Muñoz, Carlos, Leiva, Claudio, Ahumada, Inés
Format: Article
Language:English
Subjects:
Analytic Sample Preparation Methods - instrumentation
Analytical chemistry
Animals
Chemical Fractionation - instrumentation
Chemistry
Chromophores
Color
Dimethylpolysiloxanes - chemistry
Exact sciences and technology
Flow Injection Analysis
Hydrogen-Ion Concentration
Malachite green
Organic Chemicals - analysis
Organic Chemicals - chemistry
Organic Chemicals - isolation & purification
Polydimethylsiloxane
Rosaniline Dyes - analysis
Rosaniline Dyes - chemistry
Rosaniline Dyes - isolation & purification
Rotating disk sorptive extraction
Rotation
Salts - chemistry
Spectrometric and optical methods
Spectrophotometry - methods
Temperature
Time Factors
Water - chemistry
Water samples
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Summary:A novel and very simple microextraction approach for pre-concentration and direct solid phase spectrophotometric measurement has been developed for the determination of chromogenic analytes. The model analyte to assess this approach was the chromophore malachite green (MG). The analyte was extracted from water samples onto a small rotating disk made of Teflon containing a sorbent phase of polydimethylsiloxane (PDMS) on one of its surfaces. We refer to the extraction procedure as rotating disk sorptive extraction (RDSE). After extraction, the sorbent phase with the concentrated analyte was separated from the Teflon disk and used directly for MG determination by solid phase spectrophotometry at 624 nm, without the necessity of a desorption step. Chemical and extraction variables such as concentration of sodium sulfate, pH, disk rotational velocity, extraction time, and temperature were studied in order to establish the best conditions for extraction. Under optimum conditions, the extraction of MG was carried out in 18 min and 90 min, for sample volumes of 100 mL or 1000 mL, respectively. The detection limit, based on three times the standard deviation of the blank phase (3 σ b), was 1.4 μg L −1, and the repeatability, expressed as relative standard deviation (RSD), for 20 μg L −1 MG was 8.1%. This study also applied the method to real samples, obtaining quantitative recovery (mean recovery of 99.3%). The PDMS phases could be reused after desorbing the MG into methanol for 3 h. Replacement of the PDMS film onto the disk is very easy and low cost.
ISSN:0003-2670
1873-4324
DOI:10.1016/j.aca.2011.04.009