Razvoj metoda za hronopotenciometrijsko određivanje odabranih pesticida u vodi / Development of methods for chronopotentiometric determination of selected pesticides in water

Đurović Ana

04 July 2018

<p>U okviru ove doktorske disertacije, razvijene su elektroanalitičke metode za određivanje odabranih pesticida primenom hronopotenciometrije. Ispitana je mogućnost primene elektrode od staklastog ugljenika i tankoslojne živine elektrode kao radnih elektroda za određivanje insekticida imidakloprida i herbicida metamitrona i metribuzina. U cilju optimizacije uslova hronopotenciometrijske tehnike, za svaki ispitivani sistem (pesticid/radna elektroda) ispitan je uticaj najznačajnijih eksperimentalnih parametara na analitički signal pesticida, uključujući mehanizam generisanja analitičkog signala na radnoj elektrodi (oksidacija/redukcija), optimalnu metodu za uklanjanje rastvorenog kiseonika iz analiziranog rastvora, kao i vrstu, pH i koncentraciju pomoćnog elektrolita. Nakon toga definisan je optimalni opseg potencijala i struje redukcije. Pored toga, u okviru validacije metode za svaki ispitivani sistem, ispitan je i definisan opseg linearnosti, određena granica detekcije i granica kvantifikacije, ispitana preciznost, tačnost, robusnost i selektivnost metode. Dobijeni analitički signal za ispitivane pesticide bio je posledica ireverzibilne redukcije analita na radnoj elektrodi, a za svaki analit dobijen je jedan redukcioni pik. U slučaju određivanja metribuzina eksperimenti su pokazali da se analitički signal ne može detektovati na elektrodi od staklastog ugljenika uz kori&scaron;ćenje dostupne instrumentacije. Ispitivanja u model-rastvorima za svaki ispitivani sistem pokazala su dobre karakteristike u pogledu preciznosti, tačnosti, selektivnosti i robusnosti metode. Najveća osetljivost za sva tri pesticida postignuta je uz primenu tankoslojne živine elektrode, a vrednosti granice detekcije iznosile su 0,17 mg/l za imidakloprid, 0,07 mg/l za metamitron i 0,04 mg/l za metribuzin. Nakon optimizacije i validacije, razvijene hronopotenciometrijske metode primenjene su na komercijalne formulacije pesticida i uzorke vode. U cilju dodatne potvrde hronopotenciometrijskih rezultata na uzorcima vode izvedena su komparativna merenja uz primenu hromatografske LC-MS/MS analize.</p> / <p>Within this doctoral dissertation, electroanalytical methods for the determination of selected pesticides using chronopotentiometry are developed. The possibility of using glassy carbon electrode and thin film mercury electrode as a working electrode for determination of insecticide imidacloprid and herbicides metamitron and metribuzin is investigated. In order to optimize the conditions of the chronopotentiometric technique for each tested system (pesticide/working electrode), the influence of the most important experimental parameters on the analytical signal of the pesticides is investigated, including the generating mechanism of the analytical signal on the working electrode (oxidation/reduction), the optimal method for removal of dissolved oxygen from the analyzed solution, as well as type, pH, and concentration of the supporting electrolyte. Afterwards, the optimal range of potential and reduction current is defined. Additionally, within the validation of the method for each tested system, the linearity range is determined and defined, limit of detection and quantification are determined, and precision, accuracy, robustness and selectivity of the method are tested. The obtained analytical signal for the investigated pesticides is the result of irreversible reduction of the analyte on the working electrode, and for each analyte one reduction peak is obtained. In the case of metribuzin determination, the experiments have shown that by using the available instrumentation the analytical signal can not be detected on the glassy carbon electrode. Investigation in model solutions for each tested system shows good characteristics in terms of precision, accuracy, selectivity and robustness of the method. The highest sensitivity for all three pesticides was achieved by using thin film mercury electrode, and values of detection limit were 0.17 mg/l for imidacloprid, 0.07 mg/l for metamitron and 0.04 mg/l for metribuzin. After optimization and validation, the developed chronopotentiometric methods are applied to commercial pesticide formulations and water samples. In order to further confirm the chronopotentiometric results on the water samples, comparative measurements are performed using chromatographic LC-MS/MS analysis.</p>

Atomic-scale study of pesticide interaction with soil mineral matter / Etude à l'échelle atomique de l'interaction de pesticides avec la matière minérale du sol

Belzunces, Bastien

12 December 2017

Les pesticides sont des molécules utilisées en grandes quantités en France et dans le monde entier pour la protection des cultures. Lorsque ces substances sont répandues une grande quantit é rejoint les sols. Dans cette thèse, le devenir de pesticides dans le sol est étudié. Pour cela, trois pesticides ont été sélectionnés : l'atrazine, la métamitrone et le fenhexamide ; et une argile de type montmorillonite a été choisie. Les simulations menées lors de cette thèse emploient le formalisme de la Théorie de la Fonctionnelle de la Densité (DFT). La première partie de cette thèse porte sur l'étude statique de l'interaction de l'atrazine avec la pyrophyllite et la montmorillonite. Dans les chapitres suivants, la Dynamique Moléculaire Car-Parrinello en DFT est utilisée. L'étude débute par les pesticides seuls, métamitrone et fenhexamide, puis leurs complexes avec un ou deux cations Na+ et Ca2+. Ensuite, l'adsorption de ces entités, en présence ou non d'eau, sur une surface de montmorillonite, est envisagée à l'aide de calculs périodiques. Dans le second chapitre de ce travail, des résultats issus d'optimisations de géométries en phase gazeuse sont présentés. La troisième partie développe les résultats obtenus pour l'adsorption de la métamitrone et du fenhexamide sur le modèle d'argile choisi. Dans le dernier chapitre, certaines des structures les plus stables de chaque pesticide adsorbé sur la surface ont été solvatées et une étude de la désorption du fenhexamide de la surface de montmorillonite a été réalisée à l'aide de la méthode Umbrella Sampling. Ce travail a permis de quantifier théoriquement la barrière d'énergie libre à franchir pour désorber le fenhexamide de la montmorillonite hydratée. / Pesticides are widely employed molecules for crop protection in France and all over the world. When these substances are spread an important quantity reaches soils. In the present thesis, pesticide fate is under study. For this purpose, three pesticides have been selected: atrazine, metamitron and fenhexamid ; and the most abundant smectite clay type, montmorillonite, has been chosen. The computational simulations conducted in this thesis use the Density Functional Theory (DFT) formalism. The first part of this thesis treats a static study of atrazine interaction with pyrophyllite and montmorillonite. In the following chapters, Car-Parrinello Molecular Dynamics through DFT is used. This study begins with isolated pesticides, metamitron and fenhexamid, then their complexes with one or two Na+ and Ca2+. Finally, the adsorption of these entities, in the presence of water or not, onto a montmorillonite surface, is considered using periodic calculations. Within the second chapter of the present work, results from geometry optimisations in gas phase are presented. The third part develops the obtained results on the adsorption of metamitron and fenhexamid over the chosen clay model. In the last chapter of this thesis, some of the most stable structures of each adsorbed pesticide onto the surface have been solvated and a study of fenhexamid desorption from the montmorillonite surface using Umbrella Sampling has been done. This work allowed to quantify theoretically the free energy barrier to overcome to desorb fenhexamid from the hydrated montmorillonite.

Dynamique moléculaire

Pesticide

Atrazine

Métamitrone

Fenhexamide

Argile

Montmorillonite

Pyrophyllite

Molecular dynamics

Density functional theory

Pesticides

Atrazine

Metamitron

Fenhexamid

Clay mineral

Montmorillonite

Pyrophyllite