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Spectroelectrochemical determination of the antioxidant properties of carpobrotus mellei and carpobrotus quadrifidus natural productsMaoela, Manki Sarah January 2009 (has links)
Philosophiae Doctor - PhD / South African Carpobrotus species have been found to contain hydrolysable tannins,various flavonoids e.g. rutin and hyperoside, phytosterols and aromatic acids which have a diverse range of pharmacological properties including antimicrobial and, antioxidant activities. The main aim of the thesis was to determine the natural products in C. mellei and C. quadrifidus using chromatographic techniques and electrochemical analysis. The antioxidant activity of both Carpobrotus species was determined by using a superoxide dismutase (SOD) biosensor. ESI-LC-MS was used to separate and determine flavonoids in C. mellei and C. quadrifidus. 8 flavonoid compounds: catechin, epicatechin, epicatechin-epicatechin, coumarylquinic acid, isorhamnetin, quercetin-hexose (hyperoside), rutin and myricetin-deoxyhexose were identified. Cyclic and square wave voltammetry were used to detect flavonoids from C. mellei and C. quadrifidus. Catechin was detected in the ethyl acetate extract of C. mellei and C. quadrifidus. The oxidation potential of the plant extracts were observed
at +150.6 mV to +1072.6 mV. The oxidation mechanism proceeds in sequential steps, related to the catechol moiety, -OH groups in C ring and the resorcinol group. The oxidation process of the catechol moiety involves a two electron - two proton reversible reaction and forms o-quinone. This occurs first at low potential and is a reversible reaction. The hydroxyl group in the C ring and resorcinol group oxidise there after and undergo an irreversible reaction. UV-vis and FTIR spectroscopy were used to confirm the presence of catechin in the ethyl acetate extract of both plants.UV-visible spectroelectrochemistry confirmed the oxidation process of catechin at constant potential. Since C. mellei and C. quadrifidus were confirmed to contain flavonoids by ESI-LC-MS and electrochemical analysis, the antioxidant activity was further investigated using a SOD biosensor. The superoxide dismutase (SOD) enzyme was immobilised with 1% Nafion on a platinum electrode. Detection limit and sensitivity of the SOD biosensor were found to be 0.03918 μmol L-1 and 1.44 μA(μmol L-1)-1, respectively. The results showed that C. mellei and C. quadrifidus have antioxidant activity, with relative antioxidant capacity (RAC) of 24% and 42%, respectively.
May 2009
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De l'ingénierie de protéines de liaison aux odorants à la détection électrochimique de molécules volatiles : vers la conception de biocapteurs et nez électroniques / From odorant-binding protein engineering to electrochemical detection of volatile molecules : towards design of biosensors and electronic nosesBarou, Emilie 14 November 2014 (has links)
La détection de molécules odorantes représente un enjeu important dans divers domaines tels que l’industrie alimentaire, le diagnostic médical et la sécurité du territoire, par exemple. En effet, les odorants, présents par milliers dans notre environnement, véhiculent de nombreuses informations, via leur nature chimique ou leur concentration. Notre système olfactif est capable de discriminer des milliers de molécules différentes via des mécanismes biochimiques impliquant l’association de nombreux partenaires protéiques et un codage combinatoire de l’information. Ces biomolécules, qui englobent notamment les récepteurs olfactifs et les protéines de liaison aux odorants (OBP), constituent une source intéressante d’éléments de détection pour la conception de biocapteurs. Les OBP sont de petites protéines solubles présentent dans le mucus nasal à des concentrations de l’ordre du millimolaire. Leur poche de liaison hydrophobe leur confère la capacité de lier de façon réversible les molécules odorantes. Leur robustesse et leur manipulation aisée en font de bonnes candidates pour l’élaboration de biocapteurs. Au cours de ce travail, nous nous sommes intéressés à la détection de molécules odorantes en associant des OBP comme biorécepteur et l’électrochimie comme méthode de transduction. Par une méthode de mutagenèse dirigée, nous avons montré qu’en modifiant un seul des acides aminés dans la poche de liaison de deux OBP de rat (rOBP2 et rOBP3), il était possible de moduler leurs affinités envers les odorants. En parallèle, nous avons décrit la détection qualitative et quantitative de molécules volatiles à partir d’OBP. Nous avons montré que rOBP3 lie la 2-méthyl-1,4-naphtoquinone (MNQ), une sonde électrochimique. La quantité de MNQ déplacée de la poche de liaison de rOBP3 par la 3-isobutyl-2-méthoxypyrazine (IBMP), un odorant modèle, a été mesurée par voltammétrie cyclique à vagues carrées. Nous avons déterminé les constantes de dissociation des complexes rOBP3 / MNQ et rOBP3 / IBMP. Les valeurs mesurées par électrochimie ont été confirmées par compétition avec une sonde fluorescente et par titration calorimétrique isotherme. En combinant cette nouvelle méthode analytique à des variants de rOBP3 qui présentent des profils de liaison différents et complémentaires, nous avons détecté sélectivement chacun des constituants d’un mélange ternaire d’odorants. Ces travaux, qui allient ingénierie des OBP et électrochimie, offrent des perspectives intéressantes dans le domaine des nez électroniques. / The detection of odorant molecules has become an important challenge in different research area, such as the food industry, medical diagnostics and homeland security. Indeed, the thousands of odorants in our environment provide information on their chemical nature or their concentration. Human olfactory system is capable of discriminating thousands of different molecules thanks to biochemical mechanisms involving multiple protein receptor partners and a combinatorial coding. These biomolecules that include olfactory receptors and odorant-binding proteins (OBP) represent an interesting source of detectors for the design of biosensors. OBPs are small soluble proteins present in nasal mucus at millimolar concentrations. Their hydrophobic binding pocket gives them the ability to reversibly bind odorant molecules. OBPs are robust and easy to produce and are thus good candidates for the design of biosensors. In this work, we focused on the detection of odorant molecules associating OBPs as a bioreceptor and electrochemistry as a transduction method. Using site-directed mutagenesis, we have shown that by substituting a single amino acid in the binding pocket of two rat OBPs (rOBP2 and rOBP3), it is possible to modulate their binding affinities towards odorants. In parallel, we described a qualitative and quantitative method for the detection of volatile molecules using OBPs. We have shown that rOBP3 binds 2-methyl-1,4-naphtoquinone (MNQ), an electrochemical probe. The amount of MNQ displaced from the binding pocket of rOBP3 by the model odorant 3-isobutyl-2-methoxypyrazine (IBMP), was measured using square-wave voltammetry. We determined the dissociation constants of the rOBP3 / MNQ and rOBP3 / IBMP complexes. These values measured by electrochemistry were confirmed by a competitive fluorescent assay and isothermal titration calorimetry. By combining this new analytical method to rOBP3 variants with different and complementary binding profiles, we were able to selectively detect each of the components of a ternary mixture of odorants. This work, that combines the engineering of OBPs and electrochemistry, offers us interesting perspectives in the field of electronic noses.
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Spectroelectrochemical determination of the antioxidant properties of carpobrotus mellei and carpobrotus quadrifidus natural productsMaoela, Manki Sarah January 2009 (has links)
Philosophiae Doctor - PhD / South African Carpobrotus species have been found to contain hydrolysable tannins, various tlavonoids e.g. rutin and hyperoside, phytosterols and aromatic acids which have a diverse range of pharmacological properties including antimicrobial and, antioxidant activities. The main aim of the thesis was to determine the natural products in C. mellei and C. quadrifidus using chromatographic techniques and
electrochemical analysis. The antioxidant activity of both Carpobrotus species was determined by using a superoxide dismutase (SOD) biosensor. ESI-LC-MS was used to separate and determine tlavonoids in C. mellei and C. quadrifidus. 8 tlavonoid compounds: catechin, epicatechin, epicatechin-epicatechin, coumarylquinic acid, isorhamnetin, quercetin-hexose (hyperoside), rutin and myricetin-deoxyhexose were identified. Cyclic and square wave voltammetry were used to detect tlavonoids from C. mellei and C. quadrifidus. Catechin was detected in the ethyl acetate extract of C. mellei and C. quadrifidus. The oxidation potential of the plant extracts were observed at +150.6 mV to +1072.6 mV. The oxidation mechanism proceeds in sequential steps, related to the catechol moiety, -OH groups in C ring and the resorcinol group. The oxidation process of the catechol moiety involves a two electron - two proton reversible reaction and forms o-quinone. This occurs first at low potential and is a reversible reaction. The hydroxyl group in the C ring and resorcinol group oxidise there after and undergo an irreversible reaction. UV-vis and FTIR spectroscopy were used to confirm the presence of catechin in the ethyl acetate extract of both plants.
UV -visible spectroelectrochemistry confirmed the oxidation process of catechin at constant potential. Since C. mellei and C. quadrifidus were confirmed to contain flavonoids by ESI-LC-MS and electrochemical analysis, the antioxidant activity was further investigated using a SOD biosensor. The superoxide dismutase (SOD) enzyme was immobilised with 1% Nafion on a platinum electrode. Detection limit and
sensitivity of the SOD biosensor were found to be 0.03918 umol L-' and 1.44 !lA (umol i.'):', respectively. The results showed that C. mellei and C. quadrifidus have antioxidant activity, with relative antioxidant capacity (RAC) of 24% and 42%, respectively.
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Graphene modified Salen ligands for the electrochemical determination of heavy metal ionsNaidoo, Fayyaadh January 2020 (has links)
>Magister Scientiae - MSc / Environmental pollution is a major threat to all life, which needs to be addressed. Heavy metals are well-known environmental pollutants due to their toxicity and, persistence in the environment toxicity for living organisms and having a bioaccumulative nature.
Environmentally, the most common hazardous heavy metals are: Cr, Ni, Cu, Zn, Cd, Pb, Hg, and As. Remediation using conventional physical and chemical methods is uneconomical and generates waste chemicals in large quantities.
This study focuses on the extraction and determination of heavy metals (Nickel, Copper and Cobalt) by chelating Schiff base ligands of the type [O,N,N,O] with these metal ions. Two Schiff base ligands [N,N’-ethylenebis(salicylimine)] (Salen) and ligand [1,3-bis(salicylideneamino)-2-propanol] (Sal-DAP) were synthesized and characterised using FTIR, 1H and 13C NMR spectrometry and GC-MS techniques. Electrochemical detection of heavy metal ions in this work was achieved via ligand-metal complexation via two approaches. The in-situ method in which the metal and ligands were added to the electrochemical cell and stirred to allow complexation to occur and monitored by square wave voltammetry. While the ex-situ approach involved modifying the electrode surface by depositing a thin film of Schiff base on the electrode surface and immersed into a heavy metal solution to allow the complexation. Three modified GCE were used viz. Salen coated GCE, reduced graphene oxide-Salen coated GCE and a nafion-Salen coated GCE. The two approaches used for the electrochemical detection were successful and effective. The ex-situ approach was selected for the modification of the electrode surface since it demonstrated a higher capacity for heavy metal ion extraction.
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Electrokinetic Manipulation and Electrochemical Detection of Bacteria and Development of Hot-Square-wave VoltammetryFrkonja-Kuczin, Ariana 25 August 2020 (has links)
No description available.
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Determination of Thallium and Indium with an Electrochemically-reduced Graphene Oxide-Carbon Paste Electrode by Anodic Stripping VoltammetryMartin, Tayla January 2018 (has links)
Magister Scientiae - MSc (Chemistry) / In this study, graphene oxide was synthesized by oxidizing graphite using the modified
Hummer's method. The graphene oxide was characterized by Raman Spectroscopy, Fourier
Transform Infrared Spectroscopy, High Resolution Transmission Electron Microscopy,
Scanning Electron Microscopy and X-Ray Diffraction for structural and morphological
properties.
The graphene oxide was electrochemically reduced on a carbon paste electrode followed by
the in situ deposition of mercury thin films to achieve electrochemically reduced graphene
oxide modified carbon paste metal film electrodes (ERGO-CP-MEs).
The experimental parameters (amplitude, deposition time, deposition potential, frequency and
rotation speed) were optimized, and the applicability of the modified electrode was investigated
towards the simultaneous and individual determination of TI1+ and In3+ at the low concentration
levels (?g L-1) in 0.1 M acetate buffer (pH 4.6) using square wave anodic stripping voltammetry
(SWASV). The detection limit values for individual analysis at electrochemically reduced
graphene oxide modified carbon paste mercury film electrode (ERGO-CP-HgE ) was 2.4 and
1.1 ?g L-1 for TI1+ and In3+, respectively. The detection limit values for simultaneous analysis
at ERGO-CPE was 1.32 and 1.33 ?g L-1 and individual analysis was 0.975 and 1.04 ?g L-1 for
TI1+ and In3+, respectively.
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Audibility & Preference of DA Overload Associated with True Peak : Investigation of claims made against overload preventionStrand, Mattias January 2023 (has links)
The conversion of audio from the digital to analog domain has the potential to result in distortion due to converter overload. This occurs because some peaks in the signal cannot be defined digitally and only become problematic during the conversion into the analog domain, exceeding the level that can be represented by the converter, causing it to overload. Although True Peak limiting and metering can prevent and monitor this issue, some professional mastering engineers choose not to do so. The study tested claims made against overload prevention, including the adequacy of headroom in modern D/A converters and the inaudibility of the distortion caused by overload. Preference was also added to the audibility claim. Measurements show that there is not enough headroom in modern D/A converters to avoid overload, but the distortion created by overload is generally inaudible in an uncompressed WAVE format hard rock song. Additionally, there is no clear preference. The measurements found that overload only occurs when the device's volume is raised to its maximum output.
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High-frequency Quasi-square-wave Flyback RegulatorZhang, Zhemin 02 December 2016 (has links)
Motivated by the recent commercialization of gallium-nitride (GaN) switches, an effort was initiated to determine whether it was feasible to switch the flyback converter at 5 MHz in order to improve the power density of this versatile isolated topology. Soft switching techniques have to be utilized to eliminate the switching loss to maintain high efficiency at multi-megahertz. Compared to the traditional modeling of zero-voltage-switching quasi-square-wave converters, a numerical methodology of parameters design is proposed based on the steady-state model of zero-voltage switching quasi-square-wave flyback converter. The magnetizing inductance is selected to guarantee zero-voltage switching for the entire input and load range with the trade-off design for conduction loss and turn-off loss.
A design methodology is introduced to select a minimum core volume for an inductor or coupled inductors experiencing appreciable core loss. The geometric constant Kgac = MLT/(Ac2WA) is shown to be a power function of the core volume Ve, where Ac is the effective core area, WA is the area of the winding window, and MLT is the mean length per turn for commercial toroidal, ER, and PQ cores, permitting the total loss to be expressed as a direct function of the core volume. The inductor is designed to meet specific loss or thermal constraints. An iterative procedure is described in which two- or three-dimensional proximity effects are first neglected and then subsequently incorporated via finite-element simulation. Interleaved and non-interleaved planar PCB winding structures were also evaluated to minimize leakage inductance, self-capacitance and winding loss. The analysis on the trade-off between magnetic size, frequency, loss and temperature indicated the potential for a higher density flyback converter.
A small-signal equivalent circuit of QSW converter was proposed to design the control loop and to understand the small-signal behavior. By adding a simple damping resistor on the traditional small-signal CCM model, it can predict the pole splitting phenomenon observed in QSW converter. With the analytical expressions of the transfer functions of QSW converters, the impact of key parameters including magnetizing inductance, dead time, input voltage and output power on the small-signal behavior can be analyzed. The closed-loop bandwidth can be pushed much higher with this modified model, and the transient performance is significantly improved.
With the traditional fix dead-time control, a large amount of loss during dead time occurred, especially for the eGaN FETs with high reverse voltage drop. An adaptive dead time control scheme was implemented with simple combinational logic circuitries to adjust the turn on time of the power switches. A variable deadtime control was proposed to further improve the performance of adaptive dead-time control with simplified sensing circuit, and the extra conduction loss caused by propagation delay in adaptive dead-time control can be minimized at multi-megahertz frequency. / Ph. D. / With the fast development of telecom, computer and network systems, high efficient and small volume power supplies are highly desired. A typical method for achieving high power density involves increasing the frequency and implement soft-switching techniques to minimize loss. Thanks to the recent commercialization of the advanced semiconductor gallium-nitride (GaN) switches, it is feasible to design high density power supplies and cost effective power system.
Several challenges including optimization of power converter, high frequency magnetics and implementation of control architecture have been addressed in this dissertation which helps to realize this compact power system. With the implementation of proposed circuit model and seminumerical design procedures for magnetics, a 30W high-frequency isolated DC/DC converter with planar inductor is fabricated to verify the theoretical analysis, which also demonstrates much improved performances.
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Determinação eletroanalítica dos herbicidas 2,4-D e metribuzin em amostras de solo utilizando um eletrodo compósito de grafite-poliuretana / Electroanalytical determination of the herbicides 2,4-D and metribuzin in soil samples using graphite-polyurethane composite electrode.Andrade, Fernanda Ramos de 18 July 2008 (has links)
O presente trabalho apresenta um estudo eletroquímico da redução dos herbicidas 2,4-D e metribuzin bem como o desenvolvimento de metodologias analíticas para determinação destes compostos em amostras naturais. Os experimentos foram realizados sobre eletrodo compósito de grafite-poliuretana (GPU) utilizando a técnica de voltametria de onda quadrada (SWV). A técnica de Voltametria Cíclica (VC) foi utilizada para diagnosticar o grau de reversibilidade da reação de redução dos herbicidas assim como a natureza do transporte da material eletroativo para a superfície do eletrodo de GPU. Os eletrólitos suportes utilizados nos experimentos foram: tampão Britton-Robinson (BR) para o 2,4-D e água acidificada com H2SO4 0,1 mol L-1 para o metribuzin, ambos em pH 2. Os resultados indicaram que tanto o 2,4-D quanto para o metribuzin, apresentam um único pico de redução com características de processo irreversível controlado pela adsorção de reagente na superfície do eletrodo. Os parâmetros da técnica de SWV (freqüência, amplitude e incremento de varredura), bem como o tempo e potencial de acumulação foram otimizados para obtenção de maior sensibilidade analítica. Curvas analíticas dos dois herbicidas foram obtidas no intervalo de 1,5 a 12 µmol L-1 para os dois herbicidas. Os limites de detecção (LD) e de quantificação (LQ) obtidos para o 2,4-D, foram de 17,6 µg L-1 e 58,6 µg L-1, respectivamente. Para o metribuzin, o LD foi de 1,67 µg L-1 e o LQ 5,56 µg L-1. A precisão das metodologias desenvolvidas foi avaliada por meio da repetibilidade e a reprodutibilidade e a exatidão determinada pelo erro relativo. Os testes de recuperação realizados pelo método de adição de padrão forneceram valores de 104 % para o 2,4-D e 102 % para o metribuzin. As metodologias eletroanalíticas desenvolvidas para determinação do 2,4-D e do metribuzin, foram aplicadas em um estudo para avaliação do tempo de percolação dos mesmos em dois solos com características distintas. Os resultados indicaram que os dois herbicidas apresentam alta mobilidade nos solos estudados, pois 24 horas após a aplicação já foi possível detectar a presença dos mesmos na solução do solo extraída. Para o 2,4-D, 7 dias após o início do experimento, foram encontrados apenas resíduos de herbicida, enquanto que para o metribuzin obteve-se concentrações próximas a 1 mg L-1, mesmo depois de 14 dias. Após 100 dias do início do experimento observou-se um maior acúmulo de 2,4-D no solo arenoso, que pode ter ocorrido devido ao teor mais elevado de MO do solo argiloso, que proporciona uma quantidade maior de microorganismos no solo e que podem degradar o 2,4-D. Já para o metribuzin pode-se observar que este fica adsorvido nas primeiras profundidades do solo argiloso, possivelmente pelas maiores quantidades de MO e CTC. O eletrodo de GPU com a técnica de SWV apresentou bons resultados no que diz respeito à sensibilidade e ao tempo de análise, sendo uma excelente alternativa ao eletrodo de mercúrio, usualmente utilizado em medidas eletroanalíticas do 2,4-D e metribuzin. Os resultados obtidos com amostras de solo e formulação comercial dos herbicidas são bastante coerentes, considerando a dinâmica da dissipação espacial e temporal dos herbicidas no perfil do solo. / This research presents an electrochemical study of the herbicides 2,4-D and metribuzin reductions and the development of analytical methodologies for the determination of such substances in natural samples. The experiments were done with a graphite-polyurethane composite electrode (GPU) using the square wave voltammetry (SWV). The cyclic voltammetry (CV) was used to evaluate the reversibility degree of the herbicides reductions and thus the transport nature of the electroactive material to the surface of the GPU electrode. The supporting electrolytes used in the experiments were Britton-Robinson (BR) buffer for the 2,4-D and acidified water with H2SO4 0,1 mol L-1 for the metribuzin, both at pH 2. Results indicated that the 2,4-D and metribuzin show one reduction peak reduction with irreversible process characteristics, which are controlled by the adsorption of the reagent in the electrode surface. The SWV technique parameters (frequency, amplitude and scanning increment) and the time and potential of accumulation were optimized in order to obtain the highest analytic sensibility. Analytical curves were obtained from 0,33 mg L-1 to 2,62 mg L-1 for 2,4-D and 0,32 mg L-1 to 4,72 mg L-1 for metribuzin. The detection (LD) and quantification limits (LQ) obtained for 2,4-D were 17,6 µg L-1 and 58,6 µg L-1, respectively. For metribuzin, the LD was 1,67 µg L-1 and the LQ was 5,56 µg L-1. The precision of the developed methodologies was evaluated though its repeatability and reproductibility, besides the accuracy were determined by the relative error. Recovery experiments done by the standard addition method, provided values of 104 % for the 2,4-D and 102 % for the metribuzin. The electroanalytical methodologies developed for the determination of these herbicides were applied in two different soils with distinct characteristics, one sandy and other clayed soil. Results indicate that the herbicides present high mobility in the studied soils and 24 hours after its application it was possible to detect the presence of the herbicides in the soil solution extract. For the 2,4- D, seven days after the beginning of the experiment it was measured only residues, but for the metribuzin it is possible to measure concentrations around 1 mg L-1, even after fourteen days. After 100 days it was observed the highest accumulation of the 2,4-D in the sandy soil, that can be explained by the highest content of OM in the clay soil, which provides a higher content of 2,4-D degrading microorganisms. The herbicide metribuzin was adsorbed in the first layers of the clay soil, possibly due to the higher CTC and OM amounts in the soil profile. The GPU electrode with the SWV technique presented very good results when considered the sensibility and time analyses, being an excellent alternative for the mercury electrode usually used in the electroanalytical measurements of the 2,4-D and metribuzin. The obtained results with soil samples and commercial formulation of the herbicides are very consistent, considering the spatial and temporal dissipation dynamics of the herbicides in the soil.
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Estudo eletroquímico e desenvolvimento de novas metodologias eletroanalíticas para a determinação de antidepressivos tricíclicos e neurotransmissores / Electrochemical study and development of new electroanalytical methodologies for the determination of tricyclic antidepressants and neurotransmitersToledo, Renata Alves de 17 February 2006 (has links)
Neste trabalho, são abordados os estudos eletroquímicos e químico-quânticos, bem como o desenvolvimento de metodologias analíticas para o antidepressivo tricíclico imipramina e para o neurotransmissor dopamina. Os experimentos foram realizados em solução tampão Britton Robinson (BR) 0,10 mol L-1 no pH de melhor resposta analítica para os referidos compostos. Com base nos parâmetros eletroquímicos extraídos das técnicas de voltametria cíclica e de onda quadrada, utilizando-se um eletrodo de grafite-poliuretana (GPU), foi possível diagnosticar o grau de reversibilidade das reações, a presença ou não de processos de adsorção e também o número de prótons e elétrons envolvidos nas reações eletroquímicas. Quanto aos cálculos químico-quânticos, a representação gráfica do HOMO (orbital molecular de mais alta energia ocupado) e os cálculos das cargas atômicas derivadas do potencial eletrostático forneceram uma estimativa do provável sítio de oxidação dos compostos. Os resultados indicaram que a reação de oxidação da imipramina é irreversível e dependente da adsorção do reagente na superfície do eletrodo, ocorrendo a formação subseqüente de um dímero em uma etapa química posterior à transferência de dois elétrons e um próton. O provável sítio de oxidação da molécula abrange a região do átomo de nitrogênio do anel, salientando que após a transferência de dois elétrons há uma deslocalização de cargas pelo anel aromático, fato este que sugere a formação do dímero na posição 2. Paralelamente, experimentos de eletrólise a potencial controlado foram realizados com o objetivo de gerar produtos de reação para serem analisados pela técnica de espectroscopia de massa com ionização por electrospray (ESI-MS). Tomando-se por base os resultados obtidos pelas técnicas voltamétricas, pelos cálculos químico-quânticos e pelos espectros de massa, foi sugerido o provável mecanismo de oxidação da imipramina nas condições estudadas. A metodologia analítica desenvolvida para a imipramina é rápida, sensível e exata para a análise de rotina em comprimidos de Tofranil®. A sensibilidade alcançada pela metodologia permitiu ainda a análise direta de concentrações plasmáticas terapêuticas do antidepressivo e de seu metabólito (desipramina) em amostra de soro humano sintético. No entanto, a seletividade da metodologia ficou comprometida pela proximidade dos potenciais de pico dos dímeros formados após a oxidação da imipramina (-41 mV) e da desipramina (23 mV). A aplicação de um método matemático de deconvolução (Origin 6.0) tornou possível a determinação simultânea da imipramina e da desipramina. A dopamina, por sua vez, é oxidada a dopamina orto quinona em um processo reversível com a adsorção de reagente e produto na superfície do eletrodo. O processo envolve a participação de dois elétrons e dois prótons. A metodologia analítica desenvolvida para a dopamina foi aplicada na análise de rotina em ampolas de Revivan® com boa exatidão e precisão. Além disso, a sensibilidade e a seletividade alcançada pela metodologia resultou na determinação de dopamina em fluído cerebrospinal sintético. A separação dos picos de oxidação da dopamina (Ep = 200 mV) e do ácido ascórbico (Ep = 40 mV) deve-se, provavelmente, às interações eletrostáticas favoráveis entre a superfície do eletrodo de GPU e o ânion ascorbato. De maneira geral, os resultados obtidos foram bastante satisfatórios para as determinações pretendidas, concluindo que o eletrodo de GPU é um material promissor para a análise de moléculas de interesse biológico. / In this work, the electrochemical and quantum-chemical studies are discussed, as well as the development of analytical methodologies for the imipramine tricyclic antidepressant and for the dopamine neurotransmitter. Experiments were performed in 0.10 mol L-1 Britton Robinson (BR) buffer solution at the best analytical response pH for the mentioned compounds. From the electrochemical parameters extracted of cyclic and square wave voltammetric techniques, using a graphite-polyurethane electrode (GPU), it was possible to diagnose the reactions reversible degree, the presence or not of adsorptions processes and also the number of protons and electrons involved in the electrochemical reactions. Concerning to the quantum-chemical calculations, the graphic representation of HOMO (Highest Occupied Molecular Orbital) and the calculation of the atomic charge derived from electrostatic potential provided an estimation of the probable oxidation sites of the compounds. The results indicated that the oxidation reaction of imipramine is reversible and dependent of the reagent adsorption at the electrode surface, occuring the formation of a dimer in a chemical step after the transference of two electrons and one proton. The probable oxidation site of the molecule includes the nitrogen atom region of the ring, emphasizing that after the transference of the two electrons there is a deslocalization of the charges though the aromatic ring, suggesting the formation of the dimeric specie at postion 2. At the same time, experiments of controlled potential electrolysis were carried out in order to generate reaction products to be analysed by electrospray ionization mass espectrosmmetry (ESI-MS). From the results obtained by voltammetric techniques, by quantum-chemical calculations and by mass spectroscopy, it was suggested a probable mechanism for the imipramine oxidation in the studied conditions. The analytical methodology developed for imipramine is fast, sensible and accurate for routine analysis in Tofranil® tablets. The reached sensibility also allowed the direct analysis of therapeutical plasmatic concentrations of the antidepressant and its methabolic (desipramine) in synthetic human serum sample. However, the selectivity of the methodology was compromised by the peak potentials proximity of the dimers formed after the oxidation of imipramine (-41 mV) and of desipramine (23 mV). The application of a deconvolution mathematical xviii method (Origin 6.0) permitted the simultaneous analysis of imipramine and desipramine. On the other hand, dopamine is oxidized to dopamine ortho-quinone in a reversible process with the adsorption of reagent and product at the electrode surface. The process involves the participation of two electrons and two protons. The analytical methodology developed for dopamine was applied in the routine analysis in Revivan® injections with good accuracy and precision. Besides that, the sensitivity and the selectivity reached by the methodology resulted in the determination of dopamine in synthetic cerebrospinal fluid. The separation of the oxidation peaks of dopamine (Ep = 200 mV) and of ascorbic acid (Ep = 40 mV) is probably due to the favorable electrostatic interactions between the GPU electrode surface and the ascorbate anion. In general way, the obtained results were very satisfatory for the desirable determinations, concluding that the GPU electrode is a promissing material for the analysis of biological interest molecules.
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