Spectrophotometric determination of ziram and zineb using 4‐(2‐pyridylazo) resorcinol

Kapoor, Jyoti; Rao, A. L. J.

doi:10.1002/ps.2780420207

Cited by 12 publications

(9 citation statements)

References 10 publications

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“…Double distilled water was used throughout the experiment. Ferbam was prepared as given in literature 27 . Its stock solution was prepared in dimethyl sulphoxide (DMSO).…”

Section: Methodsmentioning

confidence: 99%

Preconcentration of Ferbam [Fe(III) tris(dimethyldithiocarbamate)] Using 1-(2-Pyridylazo)-2-naphthol Modified β-Cyclodextrin Polymer

2014

Chem Sci Trans

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Abstract:In this study, β-Cyclodextrin polymer functionalized by 1-(2-pyridylazo)-2-naphthol (PAN) was synthesized and the resulting modified polymer was used for the preconcentration of Fe(III) tris(dimethyldithiocarbamate) by converting it into Fe(III)-PAN-β-CDP complex. For the described method, the effect of some analytical parameters, such as pH, sample volume, contact time and volume of the eluent, on the recovery of Fe(III) tris(dimethyldithiocarbamate) were investigated. The recovery values were found to be ≥95%. The developed method was utilized for the preconcentration and determination of Ferbam in different water samples.

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“…Double distilled water was used throughout the experiment. Ferbam was prepared as given in literature 27 . Its stock solution was prepared in dimethyl sulphoxide (DMSO).…”

Section: Methodsmentioning

confidence: 99%

Preconcentration of Ferbam [Fe(III) tris(dimethyldithiocarbamate)] Using 1-(2-Pyridylazo)-2-naphthol Modified β-Cyclodextrin Polymer

2014

Chem Sci Trans

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“…Many methods like spectrophotometry, 1,[3][4][5][6][7][8] flame atomic absorption spectrometry 9,10 FT-IR, 11 gas chromatography, 12,13 HPLC, [14][15][16] polarography, 17,18 biosensors, 19 and enzyme linked immuno sorbent assay 20 are available for Zineb determination and other dithiocarbamates. Most of the applied methods use different techniques like spectrophotometry and gas chromatography 3 based on analysis of CS 2 , H 2 S or amines which are evolved by the decomposition of EBDCs.…”

Section: Introductionmentioning

confidence: 99%

Development of a derivative spectrophotometric method for the determination of fungicide zinc ethylenebisdithiocarbamate using sodium molybdate

Kaur¹,

Kaur²,

Malik³

et al. 2009

J. Braz. Chem. Soc.

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Neste trabalho foi desenvolvido um procedimento espectrofotométrico derivativo para a determinação de etilenobisditiocarbamato de zinco(II), Zineb, com base na formação do complexo azul de molibdato de sódio em meio ácido. A lei de Beer é obedecida até 40 µg mL -1 de Zineb no comprimento de onda de 956 nm. O limite de detecção foi de 0,006 µg mL -1 de Zineb para a razão S/N = 3 considerando diversos parâmetros como o efeito da concentração de ácido. A interferência de diversos íons na determinação de Zineb foi avaliada. A maioria dos metais alcalinos e sais metálicos não causou interferências. O procedimento tem boa sensibilidade e foi empregado para a determinação de Zineb em amostras comerciais de alimentos contendo Dithane Z 78 e Hexathane 75% W.P.. Os resultados foram comparados com procedimentos previamente propostos. Zineb foi determinado com sucesso sem a ocorrência de interferências na presença de outros ditiocarbamatos, tais como Ziram, Thiram, Ferbam etc.A derivative spectrophotometric procedure was developed for the determination of zinc(II) ethylenebisdithiocarbamate, Zineb, after formation of its blue colored complex with sodium molybdate in acidic medium. The Beer's law is obeyed up to 40 µg mL -1 of Zineb at 956 nm. The detection limit was 0.006 µg mL -1 for Zineb when S/N ratio is 3 taking into account various parameters, such as the effect of acid concentration. The interference of a large number of ions on the determination of Zineb was evaluated. Most of the alkaline metals and metal salts did not interfere. The procedure presented proper sensitivity and it was applied for determining Zineb in food stuffs and commercial samples of Dithane Z 78 and Hexathane 75% W.P.. Results were compared with earlier reported methods. Zineb was successfully determined without any interferences in the presence of other dithiocarbamates like ziram, thiram, ferbam etc.

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“…Afterwards, other researchers applied the same approach, just detecting the CS2 formed by several other instrumental techniques, such as head space gas chromatography, 6 differential pulse polarography, 7 Fourier-transform infrared spectrometry 8 or UV-visible spectrophotometry. [9][10][11] During the last ten years, direct determinations of zineb (without hot acid decomposition) have also been carried out by spectrophotometry, 12,13 16 used a C60 fullerene column for zineb preconcentration (among other dithiocarbamate pesticides) in a flow system. After elution with a 0.2 mol l -1 HNO3 solution, the pesticide was injected in a flame AAS and the zinc was detected for quantification purposes.…”

mentioning

confidence: 99%

“…Afterwards, other researchers applied the same approach, just detecting the CS2 formed by several other instrumental techniques, such as head space gas chromatography, 6 differential pulse polarography, 7 Fourier-transform infrared spectrometry 8 or UV-visible spectrophotometry. [9][10][11] During the last ten years, direct determinations of zineb (without hot acid decomposition) have also been carried out by spectrophotometry, 12,13 voltammetry, 14 amperometry 15 or flame atomic absorption. 16 Malik et al 12 and Kapoor and Rao 13 carried out spectrophotometric determinations of zineb, converting the pesticide into zinc-phenylfluorone and zinc-PAR (4-(2-pyridilazo)resorcinol) complexes, respectively.…”

mentioning

confidence: 99%

“…[9][10][11] During the last ten years, direct determinations of zineb (without hot acid decomposition) have also been carried out by spectrophotometry, 12,13 voltammetry, 14 amperometry 15 or flame atomic absorption. 16 Malik et al 12 and Kapoor and Rao 13 carried out spectrophotometric determinations of zineb, converting the pesticide into zinc-phenylfluorone and zinc-PAR (4-(2-pyridilazo)resorcinol) complexes, respectively. Ulakhovich et al 14 determined zineb in fruits, vegetables and aqueous samples by voltammetry after its solvent extraction with CH2Cl2, while Marty and Noguer 15 explored the inhibition effect of zineb on the aldehyde dehydrogenase enzyme for its determination by amperometry.…”

mentioning

confidence: 99%

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Flow Injection/Atomic Absorption Spectrometric Determination of Zineb in Commercial Formulations of Pesticide Based on Slurry Sampling

Cassella

Salim²,

Garrigues

et al. 2002

ANAL. SCI.

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Dithiocarbamates are synthetic molecules frequently employed as pesticides to treat a wide variety of fungal diseases in plants. Their use has increased throughout the world, being applied in large scale in several types of crops. Dithiocarbamate compounds are classified from medium to highly toxic substances, depending on their structure. 1 Zineb {[ethylenebis(dithiocarbamato)]zinc} is one of the most utilized pesticides to protect fruits and vegetables from foliar diseases, and is also employed in the protection of such products during their storage and transportation. 1 When released to the terrestrial environment, zineb adsorbs strongly to soil particles and usually does not move below to the upper layer of the soil.Due to this behavior, groundwater contamination by zineb is unlikely to be reported in the literature. The bioactive half-life of zineb in the field is estimated to be 16 days, and the most common problem associated to zineb application on soils is the formation of ethylene thiourea (ETU), which is a very toxic metabolite of the pesticide. 2 Most general dithiocarbamate determinations are based on their hot acid decomposition, followed by the detection of CS2 evolved after its collection in a suitable solution. [3][4][5] This approach was first proposed by Clarke et al. 3 and Lowen, 4 who employed different methodologies for CS2 quantification. Afterwards, other researchers applied the same approach, just detecting the CS2 formed by several other instrumental techniques, such as head space gas chromatography, 6 differential pulse polarography, 7 Fourier-transform infrared spectrometry 8 or UV-visible spectrophotometry. [9][10][11] During the last ten years, direct determinations of zineb (without hot acid decomposition) have also been carried out by spectrophotometry, 12,13 16 used a C60 fullerene column for zineb preconcentration (among other dithiocarbamate pesticides) in a flow system. After elution with a 0.2 mol l -1 HNO3 solution, the pesticide was injected in a flame AAS and the zinc was detected for quantification purposes. The aim of this work was to carry out a direct determination of zineb in commercial formulations by employing a novel strategy based on a slurry sampling technique integrated to a flow injection-flame AAS system, thus eliminating the necessity of laborious and time-consuming sample pretreatments, such as solvent extraction or hot acid decomposition of the pesticide. Moreover, the use of toxic organic solvents is avoided and the possibility of sample contamination and analyte losses is minimized. Also, the proposed procedure can be employed in routine analysis without involving the use of high-cost reagents or expensive instrumentation. Universidad de Valencia, Dr. Moliner 50, Burjassot, Valencia, 46100, Spain This paper reports on a new strategy for the slurry sampling determination of dithiocarbamate pesticide zineb {[ethylenebis(dithiocarbamato)]zinc} employing a FIA system with a flame atomic absorption spectrometry detector. In the flow system, an on-line alka...

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Spectrophotometric determination of ziram and zineb using 4‐(2‐pyridylazo) resorcinol

Cited by 12 publications

References 10 publications

Preconcentration of Ferbam [Fe(III) tris(dimethyldithiocarbamate)] Using 1-(2-Pyridylazo)-2-naphthol Modified β-Cyclodextrin Polymer

Preconcentration of Ferbam [Fe(III) tris(dimethyldithiocarbamate)] Using 1-(2-Pyridylazo)-2-naphthol Modified β-Cyclodextrin Polymer

Development of a derivative spectrophotometric method for the determination of fungicide zinc ethylenebisdithiocarbamate using sodium molybdate

Flow Injection/Atomic Absorption Spectrometric Determination of Zineb in Commercial Formulations of Pesticide Based on Slurry Sampling

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