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dc.contributor.authorJevtić, Sonja
dc.contributor.authorVukojević, Vesna
dc.contributor.authorĐurdjić, Slađana
dc.contributor.authorPergal, Marija
dc.contributor.authorManojlović, Dragan
dc.contributor.authorPetković, Branka
dc.contributor.authorStanković, Dalibor
dc.date.accessioned2023-04-06T07:21:23Z
dc.date.available2023-04-06T07:21:23Z
dc.identifier.isbn978-86-7132-068-9
dc.identifier.urihttps://platon.pr.ac.rs/handle/123456789/1163
dc.description.abstractPethoxamid (РОА) is relatively new herbicide and it belongs to group of chloroacetamides. lt inhibits the germination of target weeds in com, soybeans, peas and beans, tobacco and other crops and it can affects on herbicide-resistant weeds. There are no many research records about this, in the future quite applicable, herbicide. Bearing in mind that pethoxamid is high soluble in water, with almost no sorption in soils [1], the leaching and runoff of this compound in ground and surface water is а real threat. Pethoxamid residues in soil, water food and feed of plant origin usually were determined bу using liquid chromatography with tandem mass spectrometry (LC-MS/МS) [2] while some other analytical methods were used for determination ofpesticides [3]. The electroanalytical methods are noted as fast and cost-effective analytical methods for determination of many analytes of environmental interest. As far as we know, this is а first report about electrochemical behavior ofherbicide pethoxamid and its electroanalytical determinatiori. This method is based on the electrochemical oxidation of pethoxamid in Britton-Robinson buffer solution at рН 4 at а boron-doped diamond electrode. This type of carbon electrode is almost resistant to contamination of surface with various chemical spaces, easy to maintain and has а very wide working potential window which could provide insight into the electrochemical oxidation of pethoxamid at high anodic potentials. The voltammograms obtaioed for standard solutions from 1 to 1ОО μМ and corresponding calibration curve were showed on Figure 1b. All electrochemical measurements (cyclic and square-wave voltammetry) were performed on PalmSens З potentiostat/galvanostat/impedance analyzer with PSTrace software (PalmSens BV, Netherlands). Three-electrode system in the electrochemical cell was consisted from Ag/AgCl (1М KCl) reference electrode and platinum wire counter electrode, while working electrode was boron-doped diamond electrode. BDD electrode was electrochemicaly prepared as it was written before [4]. Cyclic voltammetry provided а well defined oxidation peak at +1.35 V, and this peak was used as а peak of quantification at а optimal рН value 4 (Figure 1 а). The square-wave voltammetry was chosen as suitable technique for analytical determination of pethoxamid with an established optimal working conditions (pulse amplitude of 60 mV and frequency of 1О Hz). The method was applied for selective quaotificatioo ofpethoxamid from spiked river water samples with good recovery of 92.0 to 104.6% for staodard solutioos of РОА aod good agreemeot with comparative НРLС method (97.6-98.1%). The results of this research indicate successful, fast, simple, relible aod cheap estimatioo ofpethoxamid cooteot in the surface water samples with оо electrode surface modificatioo aod time-coosuming sample preparation.en_US
dc.language.isoen_USen_US
dc.titleFirst study of electrochemical behavior of herbicide pethoxamid and its voltammetric determination in river wateren_US
dc.title.alternative8th SYMPOSIUM Chemistry and Enviromental Protection, 30.05.-01.06. 2018. Kruševac, Serbiaen_US
dc.typekonferencijski-prilogen_US
dc.description.versionpublishedVersionen_US
dc.citation.spage111
dc.citation.epage112
dc.type.mCategoryM64en_US
dc.type.mCategoryopenAccessen_US
dc.type.mCategoryM64en_US
dc.type.mCategoryopenAccessen_US


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