Trace monitoring of silver ions in food and water samples by flame atomic absorption spectrophotometry after preconcentration with solvent-assisted dispersive solid phase extraction

Omidi, Fariborz; Behbahani, Mohammad; Shahtaheri, Seyed Jamaled­din; Salimi, Sara

doi:10.1007/s10661-015-4568-5

Cited by 33 publications

(10 citation statements)

References 41 publications

(29 reference statements)

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“…and Omidi et al. used SA‐DSPE as an appropriate sample preparation method for trace detection of cadmium, lead, and silver ions by flame atomic absorption spectrometry . This work is the first report on the application of SA‐DSPE for the separation and preconcentration of a target molecule from real samples.…”

Section: Introductionmentioning

confidence: 84%

“…Solvent-assisted dispersive solid-phase extraction (SA-DSPE) as a new sample preparation method was introduced for the first time by Jamali et al for efficient preconcentration and trace detection of cobalt in food and environmental water samples [26]. In the subsequent application of the method, Behbahani et al and Omidi et al used SA-DSPE as an appropriate sample preparation method for trace detection of cadmium, lead, and silver ions by flame atomic absorption spectrometry [27,28]. This work is the first report on the application of SA-DSPE for the separation and preconcentration of a target molecule from real samples.…”

Section: Introductionmentioning

confidence: 99%

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Efficient sample preparation method based on solvent-assisted dispersive solid-phase extraction for the trace detection of butachlor in urine and waste water samples

2016

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In this work, an efficient sample preparation method termed solvent-assisted dispersive solid-phase extraction was applied. The used sample preparation method was based on the dispersion of the sorbent (benzophenone) into the aqueous sample to maximize the interaction surface. In this approach, the dispersion of the sorbent at a very low milligram level was achieved by inserting a solution of the sorbent and disperser solvent into the aqueous sample. The cloudy solution created from the dispersion of the sorbent in the bulk aqueous sample. After pre-concentration of the butachlor, the cloudy solution was centrifuged and butachlor in the sediment phase dissolved in ethanol and determined by gas chromatography with flame ionization detection. Under the optimized conditions (solution pH = 7.0, sorbent: benzophenone, 2%, disperser solvent: ethanol, 500 μL, centrifuged at 4000 rpm for 3 min), the method detection limit for butachlor was 2, 3 and 3 μg/L for distilled water, waste water, and urine sample, respectively. Furthermore, the preconcentration factor was 198.8, 175.0, and 174.2 in distilled water, waste water, and urine sample, respectively. Solvent-assisted dispersive solid-phase extraction was successfully used for the trace monitoring of butachlor in urine and waste water samples.

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Section: Introductionmentioning

confidence: 84%

Section: Introductionmentioning

confidence: 99%

Efficient sample preparation method based on solvent-assisted dispersive solid-phase extraction for the trace detection of butachlor in urine and waste water samples

2016

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“…The most recently, many research efforts are towards the development of efficient, miniature, and environment friendly sample preparation methods. To reach this goal, various techniques such as liquid–liquid extraction (LLE), cloud point extraction (CPE), solid phase extraction (SPE), membrane extraction (ME) and stir‐bar sorptive extraction (SBSE) have been applied for separation and preconcentration of heavy metals. Among these methods, solid phase extraction (SPE) is considered more superior in sample preparation due to high preconcentration factor and the consumption of small volume of solvent.…”

Section: Introductionmentioning

confidence: 99%

Nitrogen doped nano porous graphene as a sorbent for separation and preconcentration trace amounts of Pb, Cd and Cr by Ultrasonic assisted in‐syringe dispersive micro solid phase extraction

Lotfi

Mousavi

Sajjadi

2017

Applied Organom Chemis

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Nitrogen doped nano porous graphene was used as an efficient sorbent in solid‐phase extraction process for simultaneous separation and pre‐concentration of metal ions lead (II), cadmium(II), and chromium(III)) in biological samples. Ultrasonic assisted in‐syringe dispersive micro solid phase extraction coupled with micro sampling atomic absorption spectrometry was utilized for the determination of metal ions. Nitrogen doped nano porous graphene was synthesized as a nano sorbent by chemical vapour deposition method. Methane and aniline were used as carbon and nitrogen sources. The characterization of sorbent was performed by field emission scanning electron microscope, transmission electron microscopy, atomic force microscope, fourier transform infrared, chemical element analysis and raman analysis. Effective parameters on the extraction efficiency such as pH, sorbent dosage, eluent volume and eluent concentration were optimized by central composite design and desirability function. Experimental results indicate that the optimal conditions for this extraction were pH = 6.4, 1.42 mg of sorbent, 100 μL of eluent, and 0.84 mol L‐1 of eluent concentration. The detection limits are as low as 1.5, 0.3 and 0.9 μg L‐1 for lead, cadmium, and chromium, respectively. The intra‐day precisions were 3.6, 4.38 and 2.94 and Inter‐day precision were 4.83, 5.26 and 4.52 for lead, cadmium, and chromium, respectively. Method performance was investigated by determination of mentioned heavy metals in complicated biological matrixes such as human plasma, urine and saliva samples with good recoveries.

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“…In this method, each molecule of interest in the solution inter-acts with the fine particles of the sorbent; consequently, they are extracted from the initial solution. Several advantages of SA-DSPE include high preconcentration factor, rapidity, the simplicity of the operation, low cost, low sample volume, and high recovery [16][17][18][19][20][21].…”

mentioning

confidence: 99%

Development of a new solvent‐assisted dispersive solid‐phase extraction followed by ion mobility spectrometry for trace determination of organophosphorus pesticides in environmental water samples

Aladaghlo

Fakhari

2019

Separation Science Plus

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In this research, an effective sample preparation method called solvent‐assisted dispersive solid‐phase extraction followed by corona discharge ion mobility spectrometry was proposed for the trace determination of organophosphorus pesticides in environmental water samples. In this method, to maximize the interaction surface between target analytes and sorbent, the sorbent was dispersed into the aqueous sample. In this technique, the sorbent was dispersed at very low levels using a solution of sorbent and disperser solvent into the aqueous sample. Then, a cloudy solution was created by dispersing the sorbent particles in aqueous solution. After the interaction of organophosphorus pesticides and benzil, the cloudy solution was centrifuged and organophosphorus pesticides in the solid phase were dissolved in ethanol. In order to obtain the best extraction efficiency, the optimization of parameters affecting this method was examined. After optimization, the results were obtained as follows: pH of solution: 7.0, sorbent: benzil, 2% w/v, disperser solvent: ethanol, 500 µL, and centrifuge: centrifuged at 6000 rpm for 2 min. The presented method showed low method detection limit (0.3 ng mL−1), excellent preconcentration factor (368–376), good linearity (>0.994), repeatability (RSD < 4.1%), and high recoveries (92–94%).

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Trace monitoring of silver ions in food and water samples by flame atomic absorption spectrophotometry after preconcentration with solvent-assisted dispersive solid phase extraction

Cited by 33 publications

References 41 publications

Efficient sample preparation method based on solvent-assisted dispersive solid-phase extraction for the trace detection of butachlor in urine and waste water samples

Efficient sample preparation method based on solvent-assisted dispersive solid-phase extraction for the trace detection of butachlor in urine and waste water samples

Nitrogen doped nano porous graphene as a sorbent for separation and preconcentration trace amounts of Pb, Cd and Cr by Ultrasonic assisted in‐syringe dispersive micro solid phase extraction

Development of a new solvent‐assisted dispersive solid‐phase extraction followed by ion mobility spectrometry for trace determination of organophosphorus pesticides in environmental water samples

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