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Development of molecularly imprinted polymers for chemical sensors / Développement de polymères à empreintes moléculaires pour capteurs chimiquesLeibl, Nadja 07 December 2018 (has links)
Cette thèse propose une approche rationnelle pour le design de polymères à empreintes moléculaires (MIPs) pour la détection de nitro-explosifs. Les polymères à empreintes moléculaires qui miment la reconnaissance moléculaire biologique, ont l’avantage d’être stables dans des environnements sévères et peuvent adopter différentes formes physiques pour le couplage avec des transducteurs. Leur synthèse est basée sur la co-polymérisation de monomères fonctionnels et réticulants en présence de la molécule cible, ou comme dans cette thèse, d’un analogue ayant une structure proche de celle de la molécule cible. Cela conduit à la formation d’un réseau polymérique tridimensionnel rigide avec des sites de liaison complémentaires en taille, forme et position des groupes fonctionnels de la molécule cible ou de l’analogue. Pour identifier le meilleur monomère fonctionnel pour notre molécule cible, une approche rationnelle basée sur la modélisation moléculaire, la résonance magnétique nucléaire (RMN) et le titrage par calorimétrie isotherme (ITC) a été utilisée. Elle permet d’optimiser le mélange de pré-polymérisation pour identifier le monomère fonctionnel interagissant le plus fortement avec la molécule cible. Les résultats obtenus ont été confrontés à des études de liaison à partir de polymères synthétisés. La formulation polymérique ainsi conçue est intégrée aux surfaces du transducteur sous forme de nanoparticules, de films et de nanoparticules incorporés dans des films de polydopamine électropolymérisés. En plus des polymères traditionnels obtenus par polymérisation radicalaire classique sous forme de particules, des films de MIP à base de polydopamine électropolymérisés ont été étudiés en tant qu'approche alternative pour la détection électrochimique de nitro-explosifs. / This thesis proposes a rational design approach towards molecularly imprinted polymers (MIPs) for sensing nitro-explosives. Molecularly imprinted polymers are mimicking biological molecular recognition. They have the advantage to be stable in harsh environments and can be tailored into different physical forms for interfacing with transducers. Their synthesis is based on the co-polymerization of functional and cross-linking monomers in the presence of the target analyte or, as in this thesis, with a structural analogue leading to a rigid three-dimensional polymer network with binding sites complementary to the template in size, shape and position of the functional groups. The choice of the functional monomer was carried out with a rational design approach combining molecular modelling, nuclear magnetic resonance (NMR) and isothermal calorimetry (ITC) studies. This allows to optimize the pre-polymerization mixture in order to get strong complexation between the functional monomer and the template. The obtained results were confronted with binding studies performed on synthesized polymers. The thus designed polymer formulation was interfaced with transducer surfaces in form of nanoparticles, films and nanoparticles embedded into electro-polymerized polydopamine films. In addition to the traditional MIPs by free radical polymerization, molecularly imprinted in-situ electro-polymerized polydopamine films were investigated as an alternative approach for sensing nitro-explosives electrochemically.
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Determinação de tetraciclina utilizando eletrodos compósitos grafite-poliuretana modificados com polímeros metacrilatos com impressão molecular / Determination of tetracycline using graphite-polyuretane composites electrodes modified with methacrylate molecularly imprinted polymersJosé Eduardo dos Santos Clarindo 27 September 2017 (has links)
Neste trabalho propôs-se desenvolver eletrodos compósitos à base de grafite-poliuretana modificados com polímeros metacrilatos com impressão molecular (MIP-TC), visando a determinação do antibiótico tetraciclina em formulações farmacêuticas e urina sintética. O trabalho também visou contribuir no desenvolvimento de um sensor com melhor desempenho no que diz respeito à sensibilidade e seletividade do eletrodo compósito modificado, na quantificação do analito/molécula molde em matrizes complexas. Técnicas eletroanalíticas, tais como voltametria cíclica (CV) e voltametria de pulso diferencial (DPV) foram utilizadas para avaliar a resposta em termos de sensibilidade e seletividade do eletrodo compósito na detecção da tetraciclina (TC), proposto neste trabalho. A otimização dos parâmetros, tais como composição do MIP (5,0 %, m/m), amplitude de pulso (50 mV), velocidade de varredura (10 mV s-1), tempo (300 s) e potencial de acumulação [(+ 0,7 V (vs. SCE)] e faixa granulométrica do MIP (150 a 250 μm), usando voltametria de redissolução anódica por pulso diferencial foi realizada para maximizar a determinação da tetraciclina em tampão fosfato 0,10 mol L -1 (pH 2,5), permitindo obter limites de detecção de 0,555 μmol L-1, 2,70 μmol L-1 e 4,71 μmol L-1, respectivamente, para o EGPU-MIP-TC, EGPU e EGPU-NIP, sem necessidade de renovação da superfície do eletrodo entre as sucessivas medidas. Regiões lineares entre 4,0 e 60,0 μmol L-1, 8,0 e 60,0 μmol L-1 e 20,0 e 100,0 μmol L-1/sup> foram observadas, respectivamente, para o EGPU-MIP-TC, EGPU e EGPU-NIP, para o pico anódico em + 0,9 V (vs. SCE). Os EGPU também foram testados quanto à seletividade frente à possíveis interferentes, sendo utilizados clortetraciclina (CTC) e oxitetraciclina (OTC) para os testes de interferência. Em todos os casos, a interferência do EGPU-MIP-TC foi menor do que a obtida com o EGPU-NIP, confirmando que o EGPU-MIP-TC foi mais efetivo na capacidade de reconhecer seletivamente o analito na presença dos interferentes CTC e OTC. Após as etapas de síntese dos MIP/NIP e confecção dos eletrodos, otimização dos parâmetros, avaliações e testes de sensibilidade e seletividade dos EGPU, os eletrodos foram submetidos à aplicação em duas amostras de medicamentos comerciais, TetraMed® 500 mg e genérico de cloridrato de tetraciclina 500 mg e uma amostra sintética de urina. Os resultados foram comparados ao método oficial por HPLC, apresentando 95 % de confiança, de acordo com o teste t-Student. / In this work, graphite-polyurethane composites electrodes were modified with methacrylate molecularly imprinted polymers (MIP-TC) in order to evaluate the electrodes in the determination of tetracycline (TC) antibiotic in pharmaceutical formulations as well as in biological fluid. The work aimed to contribute in development of a sensor with better performance about the sensitivity and selectivity of the composites electrodes modified in quantification of this analyte. Electroanalytical techniques such as cyclic voltammetry (CV) and differential pulse voltammetry (DPV) were used to evaluate the selectivity and sensitivity of the composite electrodes in the detection of tetracycline. The parameters optimization, such as MIP composition (5.0 %, m/m), pulse amplitude (50 mV), scan rate (10 mV s-1), accumulation time (300 s), accumulation potential [+ 0.7 V (vs. SCE)], and MIP granulometry (150 to 250 μm), using differential pulse anodic stripping voltammetry was done to maximize the determination of tetracycline in phosphate buffer 0.1 mol·L-1 pH 2.5 resulting in LOD of 0.555 μmol L-1, 2.70 μmol L-1 and 4.71 μmol L-1, respectively for the EGPU-MIP-TC, EGPU and EGPU-NIP, without the need for surface renovation between the measures. A linear dynamic range from 4.0 to 60.0 μmol L-1, 8.0 to 60.0 μmol L-1 and 20.0 to 100.0 μmol L-1, respectively for the EGPU-MIP-TC, EGPU and EGPU-NIP was observed for the anodic peak at + 0.9 V (vs. SCE). The EGPU were also tested regarding the selectivity compared to possible interferents, such as chlortetracycline (CTC) and oxytetracycline (OTC) for the interference study. In all cases, the interference of EGPU-MIP-TC was lower than the one that was got with EGPU-NIP, confirming that the EGPU-MIP-TC was more selective than the non-imprinted polymer in the capacity of recognizing, selectively, the analyte in presence of CTC and OTC interferents. After the steps of synthesis of MIP/NIP and electrodes confection, parameters optimization, evaluation and EGPU sensitivity and selectivity studies, the electrodes were submitted to the application in two commercial drugs containing 500 mg of tetracycline cloridrate, TetraMed® and generic; and a synthetic urine sample. The results were compared to the official method by HPLC, presenting 95 % confidence according to the t-Student test.
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Aplicação de eletrodos compósitos à base de grafite-poliuretana modificados com polímeros com impressão molecular, na determinação de ácido fólico e diclofenaco / Application of graphite-polyurethane composite electrodes modified with molecularly imprinted polymers in the determination of folic acid and diclofenacPereira, Abigail Vasconcelos 14 August 2015 (has links)
Neste trabalho foram preparados eletrodos compósitos grafite-poliuretana modificados com polímeros metacrilatos com impressão molecular (EGPU-MIP) visando a determinação de ácido fólico (FA) e forma ácida do diclofenaco (DCF), os quais foram usados como moléculas molde. O objetivo principal era avaliar o desempenho dos MIPs em relação à seletividade e sensibilidade, além da inovação em relação ao uso dos compósitos como material de eletrodo, relativamente a esses analitos. No caso do FA, os MIP foram preparados com essa molécula, relativamente grande e contendo vários grupos funcionais, para avaliar o efeito dessas características no desempenho do sensor. Inicialmente foram feitos estudos exploratórios usando voltametria cíclica (CV), nos quais o FA apresentou pico irreversível de oxidação em +0,80 V (vs. SCE) e picos reversíveis de redução em -0,40 e -0,65 V (vs. SCE), com respectivos processos de oxidação em -0,33 e -0,49 V (vs. SCE). Foi desenvolvido um procedimento analítico para determinação do fármaco usando voltametria de pulso diferencial (DPV), após otimizar parâmetros tais como composição de MIP no sensor de (2,5%, m/m), amplitude de pulso (a = 50 mV), velocidade de varredura (ν = 10 mV s-1) e meio eletrolítico (tampão acetato, pH = 4,5). Nesse procedimento, determinou-se uma mesma região linear de resposta entre 0,6 e 2,0 µmol L-1 para os dois picos de redução em -0,52 e -0,58 V (vs. SCE), com limites de detecção (LOD) de 0,17 e de 0,03 µmol L-1, respectivamente. O pico em -0,58 V mostrou-se mais sensível e foi escolhido para determinar o FA nas formulações farmacêuticas Folacin®, Afopic® e Folifolim®, com resultados concordantes com o método oficial baseado na Cromatografia líquida de alta eficiência (HPLC), em 95% de confiança, segundo o teste t-Student. O MIP-FA mostrou-se mais seletivo que o polímero sem impressão molecular (NIP-DCF) frente às interferências do metotrexato (MTX), porem o ácido ascórbico (AA), ácido úrico (UA) e dopamina (DA) mostraram interferências, em relação aos grupos funcionais presentes nessas espécies, com forte influência da rigidez estrutural e da mobilidade rotacional de tais grupos. Outro MIP foi sintetizado com impressão para DCF. A voltametria cíclica mostrou que o DCF apresenta pico irreversível de oxidação em + 0,83 V (vs. SCE), na primeira varredura e picos reversíveis de redução em +0,40 e +0,65 V (vs. SCE), a partir da segunda varredura, com respectivos processos de oxidação em +0,27 e +0,58 V (vs. SCE). Foi desenvolvido um procedimento analítico para determinação do fármaco em formulações comerciais, usando DPAdASV, após otimização dos parâmetros tais como composição de MIP no sensor (2,5%, m/m), tempo de acumulação (300 s) e potencial de pré-concentração (+0,2 V), a = 50 mV, ν = 10 mV s-1 em ácido perclórico pH condicional (pHcond) = 1,6, com uma região linear entre 0,010 e 0,20 nmol L-1 e LOD de 0,99 nmol L-1 para o pico anódico em +0,8 V (vs. SCE). O DCF foi determinado nas formulações farmacêuticas Biofenac®, Medley® e Voltaren® e em urina sintética. O MIP-DCF se mostrou relativamente seletivo ao sinal do DCF, mesmo na presença dos interferentes como ácido meclofenâmico (AMCFN) e ácido mefenâmico (AMFN), os quais apresentam grande semelhança estrutural e funcional em relação ao analito. Deve-se tomar cuidado ao estender o intervalo de potencial operacional para o GPU, neste meio de ácido perclórico, para evitar ativação de grupos funcionais do grafite e/ou da PU. / In this work methacrylate molecularly imprinted polymers (MIP) were prepared using folic acid (FA) as well as diclofenac (DCF) templates. These MIPs were used in the modification of graphite-polyurethane (GPU) composites in order to evaluate the performance of the resulting electrodes in the determination of the templates in pharmaceutical formulations and to estimate the sensitivity and selectivity of the resulting devices joined to the innovation of using the composites in such development regarding these analytes. In the case of FA, MIPs were prepared with this relatively large and containing multiple functional groups, to evaluate the effect of such characteristics in the performance of the sensor. First of all exploratory experiments were performed using cyclic votammetry (CV) in which the FA presented an irreversible oxidation peak at + 0.80 V (vs. SCE) and reversible reductions peaks at -0.40 and -0.65 V (vs. SCE) with respective oxidation at -0.33 and -0.49 V (vs. SCE). An analytical procedure was developed based on differential pulse voltammetry (DPV), after optimizing parameters such as MIP composition in the sensor (2.5%, m/m), pulse amplitude (a = 50 mV), scan rate (ν = 10 mV s-1) and supporting electrolyte (acetate, pH = 4.5). In such procedure was obtained a linear dynamic range from 0.6 to 2.0 µmol L-1 for both DPV reduction peaks at -0.52 and -0.58 V (vs. SCE), with limit of detection (LOD) of 0.17 and 0.03 µmol L-1, respectively. As the second on was more sensitive it was chosen for the determination of FA in the commercial pharmaceutical formulation Folacin®, Afopic® and Folifolim®,with results that agreed with those from the official HPLC procedure within 95% confidence level according to the t-Student test. The MIP-FA was more selective than the non-imprinted polymer (NIP-DCF) in relation to the interference of metotrexate (MTX), however ascorbic acid (AA), uric acid (UA) and dopamine (DA) revealed significant interferences regarding the functional groups present in these species, with strong influence from the structural rigidity of the molecule that plays an important role in the rotational mobility of these groups. Another MIP was synthesized with DCF as a template. Cyclic voltammetry demonstrated that the DCF presented a single irreversible oxidation peak at + 0.83 V (vs. SCE) in the first scan, and two reversible reduction peaks at +0.40 and +0.65 V (vs. SCE) with respective oxidation at +0.27 and +0.58 V (vs. SCE), from the second scan. A DPAdASV procedure was also developed for the determination of DCF in commercial formulations after optimizing some experimental parameters such as MIP composition in the sensor (2.5%, m/m), accumulation time (300 s) and potential (+0.2 V), a = 50 mV, v = 10 mV s-1 and supporting electrolyte (perchloric acid pHcond = 1.6). A linear dynamic range from 0.010 to 0.20 nmol L-1 and a LOD of 0.99 nmol L-1 were observed for the anodic peak at +0.8 V (vs. SCE). Then the DCF was determined in the commercial formulations Biofenac®, Medley® and Voltaren® and also in synthetic urine samples. The MIP-DCF sensor showed to be selective regarding the DCF signal even in the presence of meclophenamic acid (AMCFN) and mefenamic acid (AMFN), which present structural and functional similarity when compared with the analyte. Care must be taken when using the GPU in extreme potential windows in the perchloric acid medium, to avoid activation of functional groups in the polymer.
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Estudo e fabricação de dispositivos inteligentes (línguas e narizes eletrônicos) visando à discriminação de contaminação em alimentos / Study and development of smart devices (electronic nose and tongues) aiming at discrimination of contamination in food samplesLígia Bueno 05 April 2016 (has links)
A proposta da presente tese foi desenvolver dispositivos inteligentes (língua e nariz eletrônicos/ colorimétrico) de baixo custo para discriminar amostras de alimentos contaminados quimicamente e biologicamente. Um dispositivo \"optoeletrônico\" à base de membranas poliméricas coloridas com indicadores de pH foi utilizado para discriminar compostos voláteis emitidos por micro-organismos (aminas liberadas pelos processos de deterioração dos alimentos e que são produto da descarboxilação de aminoácidos em alimentos predominantemente proteicos). As aminas avaliadas nesse estudo foram: isobutilamina, isopentilamina e trietilamina. O limite de detecção de 5 ppm das aminas foi alcançado utilizando o dispositivo \"optoeletrônico\" e, esse sistema, também foi testado em amostras reais de carne contaminadas obtendo uma boa discriminação das amostras com e sem as aminas. Aminas biogênicas (cadaverina, tiramina e putrescina) também foram testadas obtendo uma separação pelo gráfico de escores. Em uma segunda etapa o dispositivo também foi avaliado para discriminar quatro espécies de bactérias (Klebsiella pneumoniae, Proteus vulgaris, Proteus mirabilis e Escherichia coli) incubadas a 37°C e 25°C. Em ambos os casos o dispositivo inteligente utilizou um smartphone para registrar as imagens que atuou como detector para extração dos dados de RGB das imagens. A partir dessas informações (valores de RGB), as ferramentas quimiométricas PCA (do inglês Principal Component Analysis, Análise de Componentes Principais) e HCA (do inglês Hierarchical Cluster Analysis, Análise de Agrupamentos Hierárquicos) foram utilizadas para discriminar as amostras e a k-NN (do inglês kth Nearest Neighbor, k- vizinhos mais próximos) para validar o método. Em uma terceira etapa, uma língua eletrônica voltamétrica foi fabricada para discriminar amostras de leite adulteradas com melamina, ureia e formaldeído contendo concentrações finais de 0,95; 4,16 e 10,0 mmol L-1, respectivamente. Essa língua voltamétrica foi composta por três eletrodos metálicos: platina, ouro e cobre e dados voltamétricos foram utilizados como dados de entrada para as ferramentas quimiométricas (PCA e HCA). Foram testados três tipos de leite (integral, desnatado e semidesnatado) de três diferentes marcas e todos eles puderam ser discriminados com sucesso. O trabalho também apresenta a utilização de MIPs (polímeros molecularmente impressos - do inglês, molecularly imprinted polymers) como alternativa para detecção e discriminação de alimentos contaminados fazendo uso da impressão (cavidades) de substâncias químicas contaminantes ou das proteínas específicas de cada micro-organismo presente no processo de deterioração dos alimentos / The present thesis aimed at development of low cost smart devices (electronic tongue and colorimetric nose) to discriminate chemically and biologically contamination in food samples. An \"optoelectronic\" plastic-based device with colored membranes contained pH indicator was used to discriminate volatile compounds released by microorganisms, due to the deterioration process of protein in food by the organisms. The amines evaluated in this study were: isobutylamine, isopentylamine and triethylamine, achieving a detection limit of 5 ppm. Such system was also tested in real meat samples contaminated with individual amines obtained a good discrimination of samples with and without studied compounds. Biogenic amines (cadaverine, tyramine and putrescine) were also tested and discriminated. In a second step, the device was also evaluated to discriminate four bacteria species (Klebsiella pneumoniae, Proteus vulgaris, Proteus mirabilis and Escherichia coli) incubated at 37 ° C and 25 ° C. In both cases, a smartphone was used as detector to extract RGB values of the samples. From extracted information (RGB values), the chemometric tools PCA (Principal Component Analysis) and HCA (Hierarchical Cluster Analysis) were used to discriminate samples and k-NN (kth Nearest Neighbor) was evaluated to validate the method. In a third stage, a voltammetric electronic tongue was developed to discriminate adulterated milk samples with melamine, urea and formaldehyde. This voltammetric electronic tongue was fabricated using three working electrodes: platinum, gold and copper and the voltammetric data was used as input data for chemometric tools (PCA and HCA). Three types of milk (whole, skimmed and semi-skimmed) from three different brands were tested and all of them could be successfully discriminated
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Enzymatically initiated synthesis of biomimetic receptors based on molecularly imprinted polymers by free radical polymerization / Synthèse de récepteurs biomimétiques basés sur les polymères à empreintes moléculaires par polymérisation radicalaire libre initiée par catalyse enzymatiqueDaoud Attieh, Mira 01 April 2016 (has links)
Depuis de nombreuses années, l’utilisation d’enzyme pour la synthèse de polymères naturels ou synthétiques a largement été développée en tant que procédé alternatif plus vert et plus respectueux de l’environnement. En effet, comparée aux méthodes conventionnelles de synthèse, les enzymes offrent une sélectivité élevée, une capacité à réagir dans des conditions de réaction douces, ainsi que la possibilité de recyclage du biocatalyseur. D’autre part, les polymères à empreintes moléculaires (MIPs) sont des matériaux synthétiques avec des propriétés de reconnaissance moléculaire spécifique envers une molécule cible. Récemment, les MIPs ont été utilisés dans les applications environnementales et biomédicales de part leur propriétés de reconnaissance moléculaire, leur spécificité et sélectivité. Cependant, leur application reste limitée en raison de leur faible biocompatibilité et de la présence de résidu de polymérisation potentiellement nocif. Ce travail de thèse a pour objectif de proposer une méthode alternative pour la synthèse de MIPs basée sur le concept de chimie verte. La peroxydase de raifort (HRP) est utilisée pour initier la co-polymérisation en milieux aqueux de monomères fonctionnels méthacrylates et d’agents réticulants en catalysant la génération des radicaux libres. Différents hydrogels ont été synthétisés et caractérisés, en particulier une cytotoxicité plus faible a été obtenue comparée à celle des polymères synthétisés traditionnellement. La synthèse a été optimisée afin de pouvoir contrôler la taille des particules et le rendement de polymérisation. Des MIPs sous forme de nanoparticules ont été préparés en milieu aqueux pour plusieurs molécules de faible poids moléculaire ainsi que pour des protéines par polymérisation radicalaire libre initiée par HRP. L’effet de la méthode d’initiation a été évalué en comparant les propriétés de ces MIPs à ceux préparées par les méthodes traditionnellement. L’immobilisation de l’HRP a été aussi effectuée pour synthétiser des hydrogels et des MIPs. L’enzyme immobilisée a pu être réutilisée pour synthétiser des MIPs avec les mêmes performances en termes de morphologie, rendement, spécificité et sélectivité. Ces nouveaux matériaux offrent de nombreuses perspectives pour des applications environnementales et biomédicales. / Enzyme-catalyzed synthesis of natural and synthetic polymers has been developed since several decades, as an eco-friendly process. Compared to the conventional methods, enzymes offer high selectivity, ability to operate under mild conditions and to recycle the catalyst. On the other hand, molecularly imprinted polymers (MIPs) are synthetic materials with specific recognition properties for target molecules. They have recently attracted increasing attention in environmental and newly in biomedical applications for their specificity and selectivity. However, concerns about MIP toxicity for human and environment safety are of great importance. Herein, carrying forward the concept of green chemistry, an enzyme-mediated synthesis approach is described to prepare molecularly imprinted nanoparticles (MIP-NPs) in aqueous media. Horseradish peroxidase (HRP) is used to initiate the polymerization of methacrylate-based monomers and cross-linkers by catalyzing the generation of free radicals. Different hydrogels are synthesized and characterized. “Greener” hydrogels are obtained with lower cytotoxicity than that of polymers synthesized by traditional way. The hydrogels synthesis is optimized in order to control the particles sizes and polymerization yields. Moreover, water-compatible MIP nanoparticles for the recognition of different small molecules and proteins are prepared in aqueous media by HRP-initiated free radical polymerization and compared to MIPs prepared by the thermal or photopolymerization methods. HRP immobilization is also performed for hydrogels synthesis as well as MIP preparation. The reusability of immobilized enzyme is investigated for the preparation of several MIP batches with the same morphology, yield as well as good specificity and selectivity. We believe that this new synthesis method for MIPs will provide new opportunities to enlarge the use of molecular imprinting technology in biomedical and environmental applications.
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Aplicação de eletrodos compósitos à base de grafite-poliuretana modificados com polímeros com impressão molecular, na determinação de ácido fólico e diclofenaco / Application of graphite-polyurethane composite electrodes modified with molecularly imprinted polymers in the determination of folic acid and diclofenacAbigail Vasconcelos Pereira 14 August 2015 (has links)
Neste trabalho foram preparados eletrodos compósitos grafite-poliuretana modificados com polímeros metacrilatos com impressão molecular (EGPU-MIP) visando a determinação de ácido fólico (FA) e forma ácida do diclofenaco (DCF), os quais foram usados como moléculas molde. O objetivo principal era avaliar o desempenho dos MIPs em relação à seletividade e sensibilidade, além da inovação em relação ao uso dos compósitos como material de eletrodo, relativamente a esses analitos. No caso do FA, os MIP foram preparados com essa molécula, relativamente grande e contendo vários grupos funcionais, para avaliar o efeito dessas características no desempenho do sensor. Inicialmente foram feitos estudos exploratórios usando voltametria cíclica (CV), nos quais o FA apresentou pico irreversível de oxidação em +0,80 V (vs. SCE) e picos reversíveis de redução em -0,40 e -0,65 V (vs. SCE), com respectivos processos de oxidação em -0,33 e -0,49 V (vs. SCE). Foi desenvolvido um procedimento analítico para determinação do fármaco usando voltametria de pulso diferencial (DPV), após otimizar parâmetros tais como composição de MIP no sensor de (2,5%, m/m), amplitude de pulso (a = 50 mV), velocidade de varredura (ν = 10 mV s-1) e meio eletrolítico (tampão acetato, pH = 4,5). Nesse procedimento, determinou-se uma mesma região linear de resposta entre 0,6 e 2,0 µmol L-1 para os dois picos de redução em -0,52 e -0,58 V (vs. SCE), com limites de detecção (LOD) de 0,17 e de 0,03 µmol L-1, respectivamente. O pico em -0,58 V mostrou-se mais sensível e foi escolhido para determinar o FA nas formulações farmacêuticas Folacin®, Afopic® e Folifolim®, com resultados concordantes com o método oficial baseado na Cromatografia líquida de alta eficiência (HPLC), em 95% de confiança, segundo o teste t-Student. O MIP-FA mostrou-se mais seletivo que o polímero sem impressão molecular (NIP-DCF) frente às interferências do metotrexato (MTX), porem o ácido ascórbico (AA), ácido úrico (UA) e dopamina (DA) mostraram interferências, em relação aos grupos funcionais presentes nessas espécies, com forte influência da rigidez estrutural e da mobilidade rotacional de tais grupos. Outro MIP foi sintetizado com impressão para DCF. A voltametria cíclica mostrou que o DCF apresenta pico irreversível de oxidação em + 0,83 V (vs. SCE), na primeira varredura e picos reversíveis de redução em +0,40 e +0,65 V (vs. SCE), a partir da segunda varredura, com respectivos processos de oxidação em +0,27 e +0,58 V (vs. SCE). Foi desenvolvido um procedimento analítico para determinação do fármaco em formulações comerciais, usando DPAdASV, após otimização dos parâmetros tais como composição de MIP no sensor (2,5%, m/m), tempo de acumulação (300 s) e potencial de pré-concentração (+0,2 V), a = 50 mV, ν = 10 mV s-1 em ácido perclórico pH condicional (pHcond) = 1,6, com uma região linear entre 0,010 e 0,20 nmol L-1 e LOD de 0,99 nmol L-1 para o pico anódico em +0,8 V (vs. SCE). O DCF foi determinado nas formulações farmacêuticas Biofenac®, Medley® e Voltaren® e em urina sintética. O MIP-DCF se mostrou relativamente seletivo ao sinal do DCF, mesmo na presença dos interferentes como ácido meclofenâmico (AMCFN) e ácido mefenâmico (AMFN), os quais apresentam grande semelhança estrutural e funcional em relação ao analito. Deve-se tomar cuidado ao estender o intervalo de potencial operacional para o GPU, neste meio de ácido perclórico, para evitar ativação de grupos funcionais do grafite e/ou da PU. / In this work methacrylate molecularly imprinted polymers (MIP) were prepared using folic acid (FA) as well as diclofenac (DCF) templates. These MIPs were used in the modification of graphite-polyurethane (GPU) composites in order to evaluate the performance of the resulting electrodes in the determination of the templates in pharmaceutical formulations and to estimate the sensitivity and selectivity of the resulting devices joined to the innovation of using the composites in such development regarding these analytes. In the case of FA, MIPs were prepared with this relatively large and containing multiple functional groups, to evaluate the effect of such characteristics in the performance of the sensor. First of all exploratory experiments were performed using cyclic votammetry (CV) in which the FA presented an irreversible oxidation peak at + 0.80 V (vs. SCE) and reversible reductions peaks at -0.40 and -0.65 V (vs. SCE) with respective oxidation at -0.33 and -0.49 V (vs. SCE). An analytical procedure was developed based on differential pulse voltammetry (DPV), after optimizing parameters such as MIP composition in the sensor (2.5%, m/m), pulse amplitude (a = 50 mV), scan rate (ν = 10 mV s-1) and supporting electrolyte (acetate, pH = 4.5). In such procedure was obtained a linear dynamic range from 0.6 to 2.0 µmol L-1 for both DPV reduction peaks at -0.52 and -0.58 V (vs. SCE), with limit of detection (LOD) of 0.17 and 0.03 µmol L-1, respectively. As the second on was more sensitive it was chosen for the determination of FA in the commercial pharmaceutical formulation Folacin®, Afopic® and Folifolim®,with results that agreed with those from the official HPLC procedure within 95% confidence level according to the t-Student test. The MIP-FA was more selective than the non-imprinted polymer (NIP-DCF) in relation to the interference of metotrexate (MTX), however ascorbic acid (AA), uric acid (UA) and dopamine (DA) revealed significant interferences regarding the functional groups present in these species, with strong influence from the structural rigidity of the molecule that plays an important role in the rotational mobility of these groups. Another MIP was synthesized with DCF as a template. Cyclic voltammetry demonstrated that the DCF presented a single irreversible oxidation peak at + 0.83 V (vs. SCE) in the first scan, and two reversible reduction peaks at +0.40 and +0.65 V (vs. SCE) with respective oxidation at +0.27 and +0.58 V (vs. SCE), from the second scan. A DPAdASV procedure was also developed for the determination of DCF in commercial formulations after optimizing some experimental parameters such as MIP composition in the sensor (2.5%, m/m), accumulation time (300 s) and potential (+0.2 V), a = 50 mV, v = 10 mV s-1 and supporting electrolyte (perchloric acid pHcond = 1.6). A linear dynamic range from 0.010 to 0.20 nmol L-1 and a LOD of 0.99 nmol L-1 were observed for the anodic peak at +0.8 V (vs. SCE). Then the DCF was determined in the commercial formulations Biofenac®, Medley® and Voltaren® and also in synthetic urine samples. The MIP-DCF sensor showed to be selective regarding the DCF signal even in the presence of meclophenamic acid (AMCFN) and mefenamic acid (AMFN), which present structural and functional similarity when compared with the analyte. Care must be taken when using the GPU in extreme potential windows in the perchloric acid medium, to avoid activation of functional groups in the polymer.
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Determinação de tetraciclina utilizando eletrodos compósitos grafite-poliuretana modificados com polímeros metacrilatos com impressão molecular / Determination of tetracycline using graphite-polyuretane composites electrodes modified with methacrylate molecularly imprinted polymersClarindo, José Eduardo dos Santos 27 September 2017 (has links)
Neste trabalho propôs-se desenvolver eletrodos compósitos à base de grafite-poliuretana modificados com polímeros metacrilatos com impressão molecular (MIP-TC), visando a determinação do antibiótico tetraciclina em formulações farmacêuticas e urina sintética. O trabalho também visou contribuir no desenvolvimento de um sensor com melhor desempenho no que diz respeito à sensibilidade e seletividade do eletrodo compósito modificado, na quantificação do analito/molécula molde em matrizes complexas. Técnicas eletroanalíticas, tais como voltametria cíclica (CV) e voltametria de pulso diferencial (DPV) foram utilizadas para avaliar a resposta em termos de sensibilidade e seletividade do eletrodo compósito na detecção da tetraciclina (TC), proposto neste trabalho. A otimização dos parâmetros, tais como composição do MIP (5,0 %, m/m), amplitude de pulso (50 mV), velocidade de varredura (10 mV s-1), tempo (300 s) e potencial de acumulação [(+ 0,7 V (vs. SCE)] e faixa granulométrica do MIP (150 a 250 μm), usando voltametria de redissolução anódica por pulso diferencial foi realizada para maximizar a determinação da tetraciclina em tampão fosfato 0,10 mol L -1 (pH 2,5), permitindo obter limites de detecção de 0,555 μmol L-1, 2,70 μmol L-1 e 4,71 μmol L-1, respectivamente, para o EGPU-MIP-TC, EGPU e EGPU-NIP, sem necessidade de renovação da superfície do eletrodo entre as sucessivas medidas. Regiões lineares entre 4,0 e 60,0 μmol L-1, 8,0 e 60,0 μmol L-1 e 20,0 e 100,0 μmol L-1/sup> foram observadas, respectivamente, para o EGPU-MIP-TC, EGPU e EGPU-NIP, para o pico anódico em + 0,9 V (vs. SCE). Os EGPU também foram testados quanto à seletividade frente à possíveis interferentes, sendo utilizados clortetraciclina (CTC) e oxitetraciclina (OTC) para os testes de interferência. Em todos os casos, a interferência do EGPU-MIP-TC foi menor do que a obtida com o EGPU-NIP, confirmando que o EGPU-MIP-TC foi mais efetivo na capacidade de reconhecer seletivamente o analito na presença dos interferentes CTC e OTC. Após as etapas de síntese dos MIP/NIP e confecção dos eletrodos, otimização dos parâmetros, avaliações e testes de sensibilidade e seletividade dos EGPU, os eletrodos foram submetidos à aplicação em duas amostras de medicamentos comerciais, TetraMed® 500 mg e genérico de cloridrato de tetraciclina 500 mg e uma amostra sintética de urina. Os resultados foram comparados ao método oficial por HPLC, apresentando 95 % de confiança, de acordo com o teste t-Student. / In this work, graphite-polyurethane composites electrodes were modified with methacrylate molecularly imprinted polymers (MIP-TC) in order to evaluate the electrodes in the determination of tetracycline (TC) antibiotic in pharmaceutical formulations as well as in biological fluid. The work aimed to contribute in development of a sensor with better performance about the sensitivity and selectivity of the composites electrodes modified in quantification of this analyte. Electroanalytical techniques such as cyclic voltammetry (CV) and differential pulse voltammetry (DPV) were used to evaluate the selectivity and sensitivity of the composite electrodes in the detection of tetracycline. The parameters optimization, such as MIP composition (5.0 %, m/m), pulse amplitude (50 mV), scan rate (10 mV s-1), accumulation time (300 s), accumulation potential [+ 0.7 V (vs. SCE)], and MIP granulometry (150 to 250 μm), using differential pulse anodic stripping voltammetry was done to maximize the determination of tetracycline in phosphate buffer 0.1 mol·L-1 pH 2.5 resulting in LOD of 0.555 μmol L-1, 2.70 μmol L-1 and 4.71 μmol L-1, respectively for the EGPU-MIP-TC, EGPU and EGPU-NIP, without the need for surface renovation between the measures. A linear dynamic range from 4.0 to 60.0 μmol L-1, 8.0 to 60.0 μmol L-1 and 20.0 to 100.0 μmol L-1, respectively for the EGPU-MIP-TC, EGPU and EGPU-NIP was observed for the anodic peak at + 0.9 V (vs. SCE). The EGPU were also tested regarding the selectivity compared to possible interferents, such as chlortetracycline (CTC) and oxytetracycline (OTC) for the interference study. In all cases, the interference of EGPU-MIP-TC was lower than the one that was got with EGPU-NIP, confirming that the EGPU-MIP-TC was more selective than the non-imprinted polymer in the capacity of recognizing, selectively, the analyte in presence of CTC and OTC interferents. After the steps of synthesis of MIP/NIP and electrodes confection, parameters optimization, evaluation and EGPU sensitivity and selectivity studies, the electrodes were submitted to the application in two commercial drugs containing 500 mg of tetracycline cloridrate, TetraMed® and generic; and a synthetic urine sample. The results were compared to the official method by HPLC, presenting 95 % confidence according to the t-Student test.
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Molecularly imprinted polymer sensor systems for environmental estrogenic endocrine disrupting chemicalsNtshongontshi, Nomaphelo January 2018 (has links)
Philosophiae Doctor - PhD (Chemistry) / There is growing concern on endocrine disrupting compounds (EDCs). The presence of drugs
in water supplies was first realized in Germany in the early 1990s when environmental
scientists discovered clofibric acid. Clofibric acid has the ability to lower cholesterol in ground
water below a water treatment plant. Endocrine disrupting compounds can be defined as those
chemicals with the ability to alter daily functioning of the endocrine system in living organisms.
There are numerous molecules that are regarded or referred to as EDCs such as but not limited
to organochlorinated pesticides, industrial chemicals, plastics and plasticizers, fuels, estrogens
and many other chemicals that are found in the environment or are in widespread use. 17?-
estradiol is the principal estrogen found in mammals during reproductive years. Estriol is
produced in large quantities during pregnancy. 17?-estradiol is the strongest, estriol the
weakest. Estriol is water soluble, estrone and estradiol are not. Although estrogen is produced
in women they are also at risk of over exposure to estrogen. Pesticides are extensively used
today in agricultural settings to prevent and control pests. Various pesticides, including banned
organochlorines (OCs) and modern non-persistent pesticides, have shown the ability to disrupt
thyroid activity, disturbing the homeostasis of the thyroid system. Because these EDCs have
adverse effects on health of both human and wildlife, it is imperative to develop viable costeffective
analytical methods for the detection of these EDCs in complicated samples and at
very low concentrations. Very high selectivity towards particular compounds is a very
important property for the suitability of a detection method. This is because these compounds
mostly coexist in complex matrices which makes the detection of a specific compound very
challenging. It is paramount to develop highly sensitive and selective methods for the detection
of these estrogens and phosphoric acid-based pesticides at trace levels. / 2021-08-31
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Thin Film Based Biosensors for Point of Care Diagnosis of CortisolPasha, Syed Khalid 05 November 2018 (has links)
This dissertation explores the different ways to create thin film-based biosensors that are capable of rapid and label-free detection of cortisol, a non-specific biomarker closely linked to stress, within the physiological range of 10pM to 10 uM. Increased cortisol levels have been linked to stress-related diseases, such as chronic fatigue syndrome, irritable bowel syndrome, and post-traumatic stress disorder. It also plays a role in the suppression of the immune system as well. Therefore, accurate measurement of cortisol in saliva, serum, plasma, urine, sweat, and hair, is clinically significance to predict physical and mental diseases.
In this dissertation, thin film-based electrochemical immunosensors were fabricated using a self-assembled monolayer (SAM) functionalized by cortisol specific antibodies to detect cortisol at 10 pM level sensitivities in the presence of a redox probe. The fabricated electrochemical cortisol immunosensors were able to detect cortisol in human saliva samples and the outcomes were validated using the standard Enzyme Linked Immuno Sorbent Assay (ELISA) technique. With the aim of improving signal amplification and label-free cortisol detection, copper nanoparticles were incorporated on screen-printed carbon electrodes (SPCE) for the fabrication of electrochemical cortisol immunosensor. This SPCE-based sensor showed a sensitivity of 4.21µA/M and the limit of detection 6.6nM.
Both the SAM and SPCE-based immunosensors were not thermally stable due to the instability of antibodies at room temperature. To address this issue, an antibody-free immunosensor was fabricated. Molecular Imprinted Polymer (MIP) was used to template the target cortisol molecule. The MIP-based sensing platform was prepared using polypyrrole, a thermally stable conducting polymer. The conductivity of the polymer ensured good electrical performance. The polypyrrole-based MIP was synthesized by means of electrochemical polymerization and was used to detect cortisol within the physiological range at room temperature. MIP-based sensors exhibited the detection limit of 1 pM, and were cost-effective, easy to fabricate, temperature stable, and reusable. The sensing performance of the resulting sensors was comparable to those of commercially available technologies, such as ELISA. Aiming to perform cortisol sensing at point-of-care (POC), an Extended Gate Field Effect Transistor (EGFET) was integrated with a developed MIP cortisol sensor. The as developed MIP-EGFET sensor was used to detect the cortisol concentration in the range of 1 pM to 100 nM. A few of the major advantages of the developed sensor are its ability to provide a direct readout and simpler electronic systems, which are necessary for miniaturized Point of Care devices.
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Développement d'architectures innovantes associant capteurs acoustiques et matériaux polymères à empreintes moléculaires pour la détection de biomarqueurs de cancer / Association of a Love wave sensor to molecularly imprinted polymer for real time detection of colorectal cancer biomarkersLebal, Naîma 14 December 2015 (has links)
Les chiffres des statistiques du cancer colorectal en France et dans le mondemontrent la nécessité de développement de plateformes technologiques plus rapides,sensibles et spécifiques pour assurer le diagnostic du cancer. Un diagnostic rapide va ainsiaider à améliorer l’état de santé et réduire le temps d’attente des résultats qui peut être ungrand facteur de stress pour les patients. L’analyse des biomarqueurs dans le sang, lesurines et autres fluides corporels est l’une des méthodes appliquées pour la détectionprécoce de la maladie. Dans le cadre de ce projet des nucléosides urinaires ont été identifiéscomme biomarqueurs pour le cancer colorectal. Financée par l’Agence Nationale de laRecherche (ANR), à travers le projet CancerSensor (programme TECSAN), cette thèse s’estdéroulée au sein de l’équipe MDA (Microsystèmes de Détection Acoustique) du laboratoireIMS. Dans le cadre de ce projet, nous avons proposé une solution technologique dedétection et de suivi de biomarqueurs du cancer colorectal. Notre choix de la stratégie dedétection s’est porté sur les polymères à empreintes moléculaires comme élément dereconnaissance des biomarqueurs. Celui-ci sera associé à un transducteur acoustique àondes de Love mis au point lors de travaux précédents au sein de l’équipe MDA. Lebiocapteur ainsi développé va cibler les nucléosides mis en évidence pour le cancercolorectal. / Colorectal cancer statistics in France and all over the world demonstrate theneed for fast, sensitive and specific technological platforms development for cancerdiagnosis. A rapid diagnosis will improve the patients’ health status and reduce the resultswaiting time which could be a great stress factor. Biomarkers analysis in blood, urine andother body fluids is recognized as one of the applied methods for early cancer detection. Inframe of this project, urinary nucleosides have been identified as colorectal cancerbiomarkers. Funded by the National Research Agency (ANR), through the cancer sensorproject (TECSAN program), this thesis was carried out in IMS laboratory. Hence, a colorectalcancer biomarkers detection and monitoring technological solution has been proposed. Inour detection strategy, Molecularly Imprinted Polymers (MIP) has been identified asbiomarker recognition element. The MIP layer has been associated to Love Wave acoustictransducer. This biosensor will sense the identified colorectal cancer nucleosides.
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