Flame atomic absorption spectrometric determination of trace amounts of cobalt after cloud point extraction as 2-[(2-Mercaptophenylimino)methyl]phenol complex

Baghban, Neda; Shabani, Ali Mohammad Haji; Dadfarnia, Shayessteh; Jafari, Abbas Ali

doi:10.1590/s0103-50532009000500005

Cited by 40 publications

(25 citation statements)

References 24 publications

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“…In recent decades the developments of preconcentration steps prior to analytical determinations of trace level compounds have been explored in considerable depth. In this way, a number of accurate and reliable methods have been developed for Co(II) determination [7][8][9][10][11][12][13][14][15][16][17][18][19].…”

Section: Introductionmentioning

confidence: 99%

Determination of Cobalt in Food, Environmental and Water Samples with Preconcentration by Dispersive Liquid-Liquid Microextraction

Ojeda¹,

Rojas

Pavón³

2012

AJAC

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A new method for the determination of cobalt was developed by dispersive liquid-liquid microextraction preconcentration and flame atomic absorption spectrometry. In the proposed approach, 1,5-bis(di-2-pyridyl) methylene thiocarbohydrazide (DPTH) was used as a chelating agent, and chloroform and ethanol were selected as extraction and dispersive solvents. Some factors influencing the extraction efficiency of cobalt and its subsequent determination, including extraction and dispersive solvent type and volume, pH of sample solution, concentration of the chelating agent, and extraction time, were studied and optimized. Under the optimum conditions, a preconcentration factor of 8 was reached. The detection limit for cobalt was 12.4 ng·mL -1, and the relative standard deviation (RSD) was 3.42% (n = 7, c = 100 ng·mL -1 ). The method was successfully applied to the determination of cobalt in food, environmental and water samples.

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Section: Introductionmentioning

confidence: 99%

Determination of Cobalt in Food, Environmental and Water Samples with Preconcentration by Dispersive Liquid-Liquid Microextraction

Ojeda¹,

Rojas

Pavón³

2012

AJAC

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“…5,7,8,14,15,18 Therefore, the need for a sensitive, simple and reliable method for the determination of sulfadiazine is well recognized. Flame atomic absorption spectroscopy is a versatile, simple and high speed instrument for direct determination of metal ions, [20][21][22][23][24][25] but its use in indirect determination of nonmetallic anions and drugs is limited. [26][27][28][29][30][31][32][33] To the best of our knowledge there is no report on the use of FAAS for indirect determination of sulphonamides drugs.…”

Section: Introductionmentioning

confidence: 99%

Indirect Determination of Sulfadiazine by Cloud Point Extraction/Flow Injection‐Flame Atomic Absorption (CPE/FI‐FAAS) Spectrometry

Dadfarnia

Hajishabani

Rad

2011

J Chinese Chemical Soc

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An indirect simple and rapid cloud point extraction is proposed for separation and preconcentration of sulfadiazine and its determination by flow injection-flame atomic absorption spectroscopy (FI-FAAS). The sulfadiazine from 35 mL of solution was readily converted to silver sulfadiazine upon addition of silver nitrate (9.7 × 10 -5 mol/L). Then, Triton X-114 a non ionic surfactant was added and the solution was heated to 60°C. At this stage, two separate phases was formed and silver sulfadiazine enters the surfactant rich phase of non-ionic micelles of Triton X-114. The surfactant-rich phase (~50 µL) was then separated and diluted to 300 µL with acidic methanol. The concentration of silver in the surfactant-rich phase which is proportional to the concentration of sulfadiazine in sample solution was determined by FI-FAAS. The parameters affecting extraction and separation were optimized. Under the optimum conditions (i.e. pH 2-10, silver concentration (9.7 × 10 -5 mol/L), Triton X-114 (0.075% v/v) and temperature 60°C) a preconcentration factor of 117 and a relative standard deviation of 4.9% at 37 mg L -1 of sulfadiazine was obtained. The method was successfully applied to analysis of milk, urine and tablet samples and accuracy was determined by recovery experiments.

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“…But, its limitation is low detectability, which may be improved by a preconcentration step. [5][6][7][8][9] Several methods for the separation and preconcentration of metals have been developed, enhancing the sensitivity and the versatility of the instrumental analytical techniques.…”

Section: Introductionmentioning

confidence: 99%

Selective cloud point extraction and preconcentration of trace amounts of cadmium prior to flame atomic absorption spectrometric determination

Dadfarnia

Shabani

Kamranzadeh

2010

J. Braz. Chem. Soc.

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A extração por ponto nuvem (CPE) é proposta como um procedimento de separação e pré-concentração para a determinação de cádmio em amostras de água por espectrometria de absorção atômica com chama associada a sistema de injeção em fluxo (FI-FAAS). O íon cádmio em solução aquosa foi convertido a [CdI 4 ] 2-e sua carga foi neutralizada pela formação do par iônico com o cátion metiltrioctilamônio na presença de TritonX-114 como surfactante não iônico. A separação de fases foi obtida pelo aquecimento da mistura a 80 °C por 10 min. A fase rica em surfactante foi diluída com 300 mL de etanol e 100 mL foram analisados por FI-FAAS. Os parâmetros que influenciam a formação do par iônico e extração foram otimizados. Sob condições ótimas, a pré-concentração de 35 mL de amostra na presença de 0,04% (v/v) de Triton X-114 possibilitou um limite de detecção de 0,3 mg L -1 de Cd(II). A curva analítica de calibração foi linear até 250 mg L -1de cádmio e o desvio padrão relativo foi inferior a 4% para uma solução contendo 100 mg L -1 de Cd. O procedimento gerou recuperações no intervalo de 95-102%. O procedimento foi aplicado com sucesso para a determinação de cádmio em água de torneira, água de mar e em material de referência certificado de concentrado de cobre. Cloud point extraction (CPE) is proposed as a separation and preconcentration procedure for determination of cadmium in water samples by flow injection flame atomic absorption spectrometry (FI-FAAS). The cadmium ion in aqueous solution was converted to [CdI 4 ]2-and its charge was neutralized through ion-pair formation with methyltrioctylammonium cation in the presence of Triton X-114 as a non ionic surfactant. Phase separation was achieved by heating the mixture to 80 °C for 10 min. The surfactant-rich phase was diluted with 300 mL of ethanol and 100 mL of it was analysed by FI-FAAS. The parameters affecting the ion-pair formation and extraction steps were optimized. Under optimum condition, preconcentration of 35 mL of sample in the presence of 0.04% (v/v) of Triton X-114 led to a detection limit of 0.3 mg L -1 of Cd(II). Analytical calibration curve was linear up to 250 mg L -1 of cadmium and relative standard deviation was lower than 4% at 100 mg L -1 level. The procedure affords recoveries in the range of 95-102%. The procedure was successfully applied to the determination of Cd in tap water, sea water and certified reference copper concentrate.

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Flame atomic absorption spectrometric determination of trace amounts of cobalt after cloud point extraction as 2-[(2-Mercaptophenylimino)methyl]phenol complex

Cited by 40 publications

References 24 publications

Determination of Cobalt in Food, Environmental and Water Samples with Preconcentration by Dispersive Liquid-Liquid Microextraction

Determination of Cobalt in Food, Environmental and Water Samples with Preconcentration by Dispersive Liquid-Liquid Microextraction

Indirect Determination of Sulfadiazine by Cloud Point Extraction/Flow Injection‐Flame Atomic Absorption (CPE/FI‐FAAS) Spectrometry

Selective cloud point extraction and preconcentration of trace amounts of cadmium prior to flame atomic absorption spectrometric determination

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