Development of organic microelectromechanical chemosensors based on fiber optics / Développement des chimiocapteurs microélectromécaniques organiques basé sur une fibre optique

Bokeloh, Frank

08 December 2017

Un (bio)capteur classique est principalement composé de deux éléments essentiels : une couche réceptrice sensible à l’analyte à laquelle on s’intéresse et un transducteur qui permet de convertir une stimulation chimique / biologique en un signal physique mesurable. Dans le cas idéal, un capteur ne doit pas nécessiter de marquage de la cible, doit posséder de très grandes sensibilité et sélectivité envers elle, ne requiert qu’une faible quantité de cette dernière et doit présenter un temps de réponse très court. Au vu de ces critères, les microsystèmes électromécaniques (MEMS) sont des candidats très prometteurs dans le développement de capteurs. Les polymères fonctionnels, tels que les polymères à empreinte moléculaire (MIPs), sont une approche très intéressante dans l’utilisation des MEMS car ils peuvent être intégrés dans des technologies existantes de MEMS à base de silicium ou complètement remplacer ces technologies. Le but de cette thèse porte sur le développement d’un capteur MEMS composé de polymères (fonctionnels). Un chapitre initial (chapitre 2) introduit des nouveaux systèmes de fabrication de polymères fonctionnels. Des biopuces composées de MIPs imprimés par jet d’encre sont présentées ainsi qu’une technique basée sur la polymérisation radicale contrôlée qui permet le dépôt d’un fin enrobage de MIPs sur des microstructures. La deuxième partie de ce chapitre présente la fabrication de polymères à empreinte moléculaire par stéréolithographie deux-photons, qui peut être vue comme une extension de l’impression 3D. Afin d’illustrer cette technologie de prototypage rapide, deux capteurs composés de MIPs sont présentés : un capteur à grille de diffraction et un capteur en microlevier. Les deux principaux chapitres de ce manuscrit (chapitre 3 et 4) se focalisent sur le développement d’un nouveau concept de fabrication pour les capteurs MEMS. Ce concept est basé sur la polymérisation d’une poutre à fort ratio de forme à l’extrémité d’une fibre optique de télécommunication. Cette poutre a été mise en vibration à sa résonnance et a ainsi pu être utilisée comme un capteur à base de levier. Le capteur en polymère a permis l’intégration de MIPs comme élément récepteur et la reconnaissance sélective de l’antibiotique enrofloxacine. De plus, un nouveau système de mesure intégré est présenté dans le chapitre 4. Ce système de mesure intègre la fibre optique en guidant un rayon laser à travers elle ainsi qu’à travers le levier qui y est attaché.Le rayon lumineux sortant est ensuite focalisé sur une photodiode sensible à la position du rayon lumineux, permettant ainsi la mesure du spectre de résonance de la poutre en polymère. Ce système de mesure est caractérisé et ses performances sont présentées au travers de la détection de masse du levier en polymère et de mesures faites en milieu liquide. / A classical (bio)sensor consists of two key components: A receptor layer that detects the analyte of interest and the transducer which converts the chemical / biological stimuli into a physical measurable signal. Ideally a sensor is label-free, highly sensitive and selective towards the target, requires low sample amount and shows a fast response time. Regarding these criteria microelectromechanical systems (MEMS) offer great potential for the sensor development. One interesting approach for this development are functional polymer materials, such as molecularly imprinted polymers (MIPs), that can be either integrated to existing MEMS based on silicon or completely replace the silicon technology. The emphasis of this thesis is focused on the development of a MEMS sensor based on (functional) polymers. In an initial chapter (chapter 2) new fabrication schemes for functional polymers are introduced. Inkjet-printed biochips based on MIPs are presented and a technique based on controlled radical polymerization is shown that allows the deposition of thin MIP shells on a microfabricated pattern. In the second part of this chapter the fabrication of molecularly imprinted polymers by two-photon stereolithography is shown which can be seen as an extension of 3dimensional printing. As possible application of this rapid prototyping technology two sensors based on MIPs are introduced a diffraction grating sensor and a microcantilever sensor. The two main chapters of this manuscript (chapter 3 and chapter 4) report the development of a new fabrication concept for MEMS sensors. It is based on the polymerization of a high aspect ratio beam on the extremity of an optical telecommunication fiber which was actuated at resonance and thus could be used as a cantilever sensor. The polymer sensor allowed the integration of MIPs as sensing element and the selective recognition of the antibiotic enrofloxacin. Furthermore, is a new, integrated read-out scheme presented in chapter 4. This read-out scheme integrates the optical fiber, by guiding a probe laser beam through it and attached cantilever beam. The output light beam is then focused on a position sensitive photodiode and thus enabled to monitor the resonance spectra of the polymer beam. The read-out scheme is characterized and its performance is shown by demonstrating the mass sensitivity of the polymeric cantilever beam and by measurements in liquid environments.

Détection sans marquage

Polymères fonctionnels

Polymérisation radicale contrôlée

Chimiocapteurs

MEMS

Organic microelectromechanical sensors

Label-free sensing

Chemosensor

Functional polymers

Molecularly imprinted polymers (MIPs)

Développement de nouveaux monomères biosourcés à base d’Isosorbide et applications à la synthèse de matériaux à applications spécifiques / Development of new biosourced monomers based on Isosorbide and applications to the synthesis of materials with specific applications

Saadaoui, Asma

03 March 2017

L'isosorbide et ses dérivés sont des diols chiraux issus de l'amidon de maïs. L'utilisation de ce dernier en tant que monomère pour l'élaboration de polymères s'est révélée efficace, ces derniers égalant les propriétés des polymères conventionnels. Dans le cadre de cette thèse, ces diols sont employés pour synthétiser de nouvelles plateformes des monomères biosourcés AA et AB à partir des 1,4 :3,6- dianhydrohexitols. La synthèse d'intermédiaires à base de dinitriles ou de mononitriles et leurs dérivés à partir des trois isomères ainsi que les résultats d'essais de polymérisation de l'un de ces monomères prometteurs ont été décrits. Le polymère obtenu a révélé semi-cristallin grâce à l'agencement stéréorégulier des monomères AB. Ce travail est aussi le premier à décrire l'utilisation des réticulants chiraux à base de 1,4 :3,6-dianhydrohexitols participant à la formation du réseau tridimensionnel pour l'élaboration de polymères à empreintes (MIP) biosourcés pour la détéction de la Méthyltestostérone (MT). Les polymères synthétisés par polymérisation par précipitation ont été caractérisés. Les propriétés de rétention ont été évaluées en mode batch par HPLC-MS/MS. Ces MIPs présentent de bonnes propriétés d'adsorption vis-à-vis la MT avec des facteurs d'empreinte supérieurs à 1 montrant l'efficacité de l'impression. Ces matériaux présentent une bonne capacité d'adsorption comparée à la littérature. Les polymères non imprimés (NIP) ont même montré des capacités d'adsorption supérieure aux MIP classiques. La capacité d'adsorption la plus élevée a été observée pour cMIP-Is à base d'isosorbide, pour les concentrations importantes (500 mg L-1). Les données expérimentales ont été étudiées selon les modèles d'adsorption de Langmuir et Freundlich pour interpréter les phénomènes d'adsorption. Ces cMIP développés ont été adaptés pour l'extraction de la méthyltestotérone sur phase solide (SPE). Une procédure d'extraction a été développée en menant au travers d'une optimisation complète finalisée par une application aux eaux usées / The isosorbide and its derivatives are chiral diols obtained from cornstarch. The use of the latter as a monomer for the development of polymers has proved to be effective. The diols match the properties of conventional polymers. As part of this thesis, the diols are used to synthesize new platforms of bio based AA and AB from the 1,4: 3,6 - dianhydrohexitols monomers. The synthesis of intermediaries based on dinitriles or mononitrilies and their derivaties starting from the three isomers as well as the test results from one of these promising monomers polymerization which have been described. The resulting polymer revealed semi-cristallin through stereoregulier AB monomers layout. This work is also the first to describe the use of the reticulants chiral at base of 1.4: 3, 6-dianhydrohexitols participating in the formation of three-dimensional network for the development of polymers to footprints (MIP) Excelsior for detection of Methyltestosterone (MT). The polymers synthesized by polymerization have been characterized by precipitation. The properties of retention were evaluated in batch mode by HPLC-MS/MS. These MIPs present good properties of adsorption towards the MT with factors of footprint greater than 1 showing the effectiveness of printing. These materials have a good ability of adsorption compared to literature. Unprinted polymers (PIN) have shown even greater adsorption capacity than the conventional MIP. The high adsorption capacity was observed in cMIP-Is based on isosorbide for the concentrations (500 mg L-1). The experimental data have been studied according to Langmuir and Freundlich adsorption models to interpret the phenomena of adsorption these developed cMIP have been adapted for the methyltestoterone on the phase of extraction (SPE) solid. An extraction procedure has been developed leading through a full optimization finalized by an application in wastewater

1,4 :3,6- dianhydrohexitols

Isosorbide

Monomères

Polymères

Polymères à empreintes (MIP)

Methyltestosterone

1,4 :3,6- dianhydrohexitols, , ,,

Isosorbide

Monomers

Polymers

Molecularly imprinted polymers

Methyltestosterone

547

Elaboration of a new sensor based on molecularly imprinted polymers for the detection of molecules in physiological fluids / Elaboration de polymères à empreinte moléculaire pour la détection optique de molécule dans un fluide physiologique

Marie, Héléne

19 December 2013

Ce travail de thèse avait pour objectif l'élaboration d'un capteur optique pour la détection directe de molécules d'intérêt dans un fluide biologique. Deux stéroïdes et un xéniobiotique (herbicide) ont été choisis en tant que biomarqueurs apparaissant dans des fluides corporels : respectivement l'acétate de cyprotérone, le cortisol et l'acide 2,4 dichlorophénoxyacétique. La partie détection, d'une part, est assurée par les polymères à empreintes moléculaires (MIPs, de l'anglais Molecularly Imprinted Polymers). Ces récepteurs synthétiques sur mesure présentent en effet de nombreuses qualités pour l'intégration dans un capteur. Des polymères à empreintes moléculaires ont ainsi été développés pour les analytes visés. L'optimisation des formulations de polymère a été basée sur des plans d'expériences. La transduction optique, d'autre part, est basée sur la structuration du polymère sous la forme d'un cristal photonique. Des opales ont été fabriquées avec un procédé industrialisable pour permettre la mise en forme du MIP en opale inverse. Ainsi structuré à l'échelle submicronique, le matériau présente une couleur susceptible d'évoluer lors de la détection de l'analyte, et ce, grâce à un changement de conformation (gonflement). Les formulations polymères étudiées ont généré des gonflements réduits mais visibles en spectrophotométrie. Le travail rapporté dans cette thèse consiste donc en l'élaboration de polymères à empreintes moléculaires et leur intégration dans un capteur afin de détecter un analyte de façon directe, rapide et ne nécessitant que des équipements transportables, voire portables. / This thesis aimed at elaborating an optical sensor to detect molecules in a biological fluid. Two steroids and a xenobiotic were identified as biomarkers released in some body fluids: cyproterone acetate, cortisol and 2,4-dichlorophenoxyacetic acid respectively. On one hand, detection was performed by Molecularly Imprinted Polymers (MIPs). These tailor-made synthetic receptors display numerous qualities that foster their integration in sensors. MIPs were therefore developed against the targeted analytes. Formulation optimization was led thanks to experimental designs. On the other hand, optical transduction was made possible thanks to the structuring of a polymer into a photonic crystal. Opals were manufactured with a new process suitable for large scales and were used to mold MIPs in inverse opals. Thus, submicron structures of the polymer are responsible for the color of the sensor. A change of color is triggered by the recognition of the analyte by the polymer (upon swelling). Polymers studied displayed sufficient swelling observed by spectrophotometry. Finally, the work of this thesis consisted in elaborating polymer formulations and their integration in a sensor so as to detect an analyte with direct, rapid and unobtrusive means.

Polymères à empreintes moléculaires

Transduction optique

Cristal photonique

Fluides corporels

Biomarqueurs

Molecularly imprinted polymers

MIPs

Steroids

Biosensors

Optical transduction

Photonic crystal

Body fluids

Análises teóricas e simulações aplicadas a estratégias racionais de design de materiais nanoestruturados = Theoretical analysis and simulations applied to rational design strategies of nanostructured materials / Theoretical analysis and simulations applied to rational design strategies of nanostructured materials

Moura, Francisco Alírio Almeida Gomes de, 1985

08 January 2016

Orientador: Douglas Soares Galvão / Tese (doutorado) - Universidade Estadual de Campinas, Instituto de Física Gleb Wataghin / Made available in DSpace on 2018-08-31T07:27:10Z (GMT). No. of bitstreams: 1 Moura_FranciscoAlirioAlmeidaGomesDe_D.pdf: 33020380 bytes, checksum: e40379018df214dbad74041d1e5f6b3e (MD5) Previous issue date: 2016 / Resumo: Esse documento apresenta uma coleção de trabalhos realizados dentro do amplo campo de materiais nanoestruturados, focando-se em descrições teóricas analíticas e simulações computacionais de diversos novos materias desse tipo. Uma nova fibra supereslástica e condutora é reportada. Essa fibra altamente esticável (até 1320%) é criada envolvendo-se um núcleo cilíndrico de borracha com uma camada de folha de nanotubos de carbono. O material resultante exibe uma interessante estrutura de enrugamentos hierárquicos na sua superfície, o que lhe garante propriedades elétricas úteis como conservar a sua resistencia constante enquanto esticada. Adicionando-se mais camadas de borracha ou nanotubos podemos obter aplicações como sensores de movimento ou deformação, atuadores/músculos artificiais ativados por corrente ou temperatura e operados reversivelmente por um mecanismo de acoplamento entre tensão e torção. Nós explicamos suas propriedades de condução elétrica e os fenômenos físicos envolvidos em cada uma dessas aplicações. Também desenvolvemos um novo método para o desenho racional de polímeros molecularmente impressos usando dinâmica molecular para simular o processo de impressão molecular e a análise subsequente utilizando experimentos de cromatografia simulada. Obtivemos com sucesso a primeira evidência teórica do mecanismo de impressão exibindo afinidade e seletividade para a substância alvo 17-beta-estradiol. Desenhamos e simulamos uma nova estrutura com formato de piramide em kirigami de grafeno, composta de uma folha de grafeno cortada em um padrão específico a fim de formar uma pirâmide quando sofre tensão na direção normal ao plano. Nós calculamos a resposta dessa estrutura a uma carga estática, quando ela age como uma mola de proporções nanométriacs. Também, utilizando simulações de dinâmica molecular de colisões balísticas, constatamos que a resistência desse material a impactos é ainda maior que de uma folha de grafeno puro, sendo ainda mais leve. Um novo método de reforçar fios de nanotubos de carbono, chamado ITAP, também é reportado. Esse método foi capaz de melhorar a resistencia mecanica do fio em até 1,5 vezes e torná-lo muito mais resistente ao ataque de ácido quando comparado com um fio não tratado. Utilizamos simulações de dinâmica molecular para testar a hipótese de que esse tratamento é suficiente para gerar ligações covalentes entre as paredes externas de nanotubos diferentes, o que seria responsável pelas propriedades do material. Aplicamos um algoritmo genético modificado ao problema do folding de proteínas em um modelo de rede 3D HP. Testamos o algoritmo utilizando um conjunto de sequencias de teste que têm estado em uso pelos últimos 20 anos na literatura. Fomos capazes de melhorar um dos resultados e demonstramos a aplicação e utilidade de operadores não canônicos que evitam a convergência prematura do algoritmo, sendo eles o operador de compartilhamento e efeito maternal / Abstract: This document presents a colection of works done within the broad subject of nano-structured materials, focusing on analytical theoretical descriptions and computational simulations of new kinds of this class of materials. A new superelastic conducting fiber is reported, with improved properties and functionalities. They are highly stretchable (up to 1320%) conducting fibers created by wrapping carbon nanotube sheets on stretched rubber fiber cores. The resulting structure exhibited an interesting hierarchical buckled structure on its surface. By including more rubber and carbon nanotube layers, we created strain sensors, and electrically or thermally powered tensile and torsional muscles/actuators operating reversibly by a coupled tension-to-torsion actuation mechanism. We explain its electronic properties and quantitatively explain the compounded physical effects involved in each of these applications. We also developed a new method for the rational design of molecularly imprinted polymers using molecular dynamics to simulate the imprinting process and subsequent chromatography studies. We successfully obtained the first theoretical evidence of actual imprinting happening under unconstrained simulations showing affinity and selectivity to the target substance 17-beta estradiol. We designed and simulated a new graphene kirigami pyramid structure, composed of a cut graphene sheet in a specific pattern in order to form a pyramid when under stress perpendicular to the plane. We calculated the response to static loading of this structure that acts like a nano-sized spring. Also, with simulated ballistic collisions we obtained increased resistance to impact in comparison with a pure graphene sheet. A new method of strengthening carbon nanotube yarns, called ITAP, consisting of annealing at high temperature in vacuum is reported. This method is shown to increase the mechanical resistance of the wire up to 1.5 times and make it much more resistant to acid corrosion when compared to pristine non-treated wires. We applied a modified genetic algorithm to the protein folding problem using an 3D HP lattice model using known test sequences that have been in use for the last 20 years and obtained an improvement for the best solution found for one of these proteins. Also, the importance of new non-canonical operators that prevent rapid convergence of the algorithm was demonstrated, namely the Sharing and Maternal Effect operators / Doutorado / Física / Doutor em Ciências / 141198/2012-5 / CNPQ

Materiais nanoestruturados

Dinâmica molecular

Polímeros molecularmente impressos

Algoritmos genéticos

Dobramento de proteína

Nanostructured materials

Molecular dynamics

Molecularly imprinted polymers

Genetic algorithms

Protein folding

Insights into the Role of Structural Modification on the Surface Molecular Interactions Probed Using Sum Frequency Generation Spectroscopy

Premadasa, Uvinduni I.

02 June 2020

No description available.

Chemistry

Physical Chemistry

Polymers

Molecules

Optics

Sum frequency generation spectroscopy

Air liquid interface

Methacrylate monomers

Substitution effect

Cationic surfactants

Molecularly imprinted polymers

Interfacial conformations

Surface Molecular Interactions

Nanosystèmes électromécaniques pour la biodétection : intégration d'un moyen de transduction et stratégies de biofonctionnalisation / Nanoelectromechanical systems for biodetection : development of an integrated transducer and biofunctionalization strategies

Dezest, Denis

16 November 2015

Avec une limite de détection ultime pouvant atteindre le yoctogramme (1 yg = 10-24 g), les nanosystèmes électromécaniques (NEMS) employés comme capteurs gravimétriques présentent un fort potentiel pour la détection ultra-sensible et sans marquage de molécules biologiques. A l’heure actuelle, plusieurs défis restent cependant à relever avant de pouvoir envisager de manière réaliste leur utilisation comme outils de biodétection. Ces travaux de thèse adressent en particulier l’intégration du moyen de transduction et le développement de stratégies de biofonctionnalisation. En vue de répondre à la première problématique, l’intégration d’une couche piézoélectrique à base de Titano-Zirconate de Plomb (PZT) selon une approche de fabrication collective de réseaux de NEMS par voie descendante a été développée et caractérisée.Deux approches de biofonctionnalisation adaptées à une organisation de NEMS en réseaux,respectivement basées sur le dépôt localisé de matériel biologique par impression moléculaire et sur la structuration par photolithographie d’une couche bioréceptrice à base de polymères à empreintes moléculaires (MIP), ont ensuite été mises en oeuvre et ont permis de démontrer une première preuve de concept. Ces différentes contributions constituent un premier pas dans le développement des NEMS pour des applications de biodétection. / With an ultimate limit of detection down to the yoctogram regime (1 yg = 10-24 g),nanoelectromechanical systems (NEMS) resonators used as ultra-sensitive and label-free gravimetric sensors have a high potential for biodetection applications. To date, several challenges currently limit their wide spread use as viable biosensing tools. This PhD thesis addresses the issues related to the transducer integration and the biofunctionnalization. A Lead Zirconate Titatane (PZT)-based piezoelectric transducer has been implemented according to a top-down approach compatible with collective fabrication of NEMS arrays. Two biofunctionnalization strategies, suitable for a NEMS array organization and based on the localized deposition of biological material assisted by microcontact printing and the patterning of molecularly imprinted polymers (MIP) by photolithography, have also been investigated and first proof-of-concept biosensors were demonstrated. These various contributions have the potential to drive future advancements in the realm of NEMS as effective biosensing tools.

Nanosystèmes électromécaniques

Biodétection

Biofonctionnalisation

Tamponnage moléculaire

Polymères à empreintes moléculaires

Nanoelectromechanical systems

Biosensing

Integrated piezoelectric transduction

Biofunctionalization

Microcontact printing

Molecularly imprinted polymers

621.381

Desenvolvimento de uma fase extratora com polímeros de impressão molecular para extração em fase sólida de Venlafaxina, O-desmetilvenlafaxina e N-desmetilvenlafaxina em amostras de plasmas e análises por cromatografia líquida de ultra eficiência acoplada à espectometria de massas em tandem (UPLC-MS/MS). / Development of an extraction phase with molecularly imprinted polymers for solid phase extraction of venlafaxine, o-desmethylvenlafaxine, and n-desmethylvenlafaxine in plasma samples and analysis by Ultra Performance Liquid Chromatography-tandem mass spectrometry (UPLC-MS/MS)

Miranda, Luís Felippe Cabral

18 March 2015

A venlafaxina (VEN), em razão de sua eficácia e brandos efeitos adversos, tem sido um dos antidepressivos mais prescritos no tratamento da depressão e ansiedade. Neste trabalho, um método analítico empregando as técnicas MISPE miniaturizada e cromatografia líquida acoplada à espectrometria de massas em Tandem, foi utilizado para a determinação de VEN e seus principais metabólitos em amostras de plasma para fins de monitorização terapêutica. A fase MIP foi sintetizada via polimerização radicalar por precipitação, fazendo uso de VEN (molécula molde), ácido metacrílico (monômero funcional), etileno glicol dimetacrilato, (reagente reticulante) e 2,2 azobisisobutironitrila (iniciador radicalar) em tolueno (solvente). Para controle utilizou-se o polímero não impresso (NIP), sintetizado por procedimento análogo ao do MIP, porém sem o uso da molécula molde. A caracterização química e estrutural dos polímeros foi realizada por espectroscopia no infravermelho com transformada de fourier e microscopia eletrônica de varredura. A otimização das variáveis de MISPE miniaturizada favoreceu a detectabilidade analítica e diminuiu o efeito de memória. As extrações realizadas com MIP apresentaram taxa de recuperação de 84% para VEN e de 2-28% para os antidepressivos (clorpromazina, fluoxetina, clomipramina, imipramina e sertralina). O polímero não impresso apresentou baixa recuperação para a VEN (taxa de recuperação: 49%) e para os demais antidepressivos (taxas de recuperação menores que 40%). Estes experimentos comprovam a seletividade da fase MIP desenvolvida. O método padronizado apresentou linearidade na faixa de 3 a 700 ng mL-1 para VEN, 5 a 700 ng mL-1 para O-desmetilvenlafaxina (ODV) e de 3 a 500 ng mL-1 para N-desmetilvenlafaxina (NDV), precisão com coeficientes de variação menores que 15% e exatidão com valores de erro padrão relativo na faixa de -11,8 a 16,01 %. As concentrações correspondentes aos limites inferiores de quantificação para VEN (3 ng mL-1) e ODV ( 5 ng mL-1) foram inferiores aos intervalos terapêuticos preconizados. O método desenvolvido, quando comparado a aos métodos da literatura para determinação de VEN e metabolitos, apresentou maior seletividade, menor consumo de amostra e de solventes orgânicos e permitiu a reutilização da fase extratora. Segundo os parâmetros de validação analítica avaliados e amostras de pacientes em terapia com VEN analisadas, o método proposto é adequado para determinação de VEN, ODV e NDV em amostras de plasma para fins de monitorização terapêutica. / Venlafaxine elicits a small number of adverse effects, so it is one of the most frequently prescribed drugs to treat major depression, generalized anxiety, and social anxiety disorders in adults. In this study, venlafaxine (VEN), O-desmethylvenlafaxine (ODV), and N-desmethylvenlafaxine (NDV) were pre-concentrated with the aid of miniaturized SPE based on MIPs as extraction phase. MIPs are synthetic polymers with cavities specifically designed to hold a target molecule or structurally similar compounds. The molecularly imprinted polymers were prepared by addition of VEN, metacrylic acid (MAA, monomer), ethylene glycol dimethacrylate (EGDMA, cross-linker), and 2,2-azobisisobutyronitrile (AIBN, initiator) to toluene (solvent). The non-imprinted polymer (NIP), used for comparison, was also synthesized by following exactly the same procedure, but excluding the template VEN from the formulation. The polymer was characterized by Fourier transform infrared spectroscopy and scanning electron microscopy (SEM). Optimization of the MIP phase extraction variables favored miniaturized analytical detectability and reduced the memory effect. The extractions performed with the synthesized MIP showed recovery rate of 84% for VEN and 2-28% for other antidepressants (chlorpromazine, fluoxetine, clomipramine, imipramine, and sertraline). The non-imprinted polymer provided low recovery of VEN (recovery rate: 49%) and other antidepressants (recovery rates lower than 40%). These experiments demonstrated the selectivity of the developed MIP phase. The standardized method was linear in the range of 300 - 700 ng mL-1 for VEN, 5-700 ng mL-1 for ODV, and 3 to 500 ng mL-1 for NDV. Precision had coefficients of variation smaller than 15%; the accuracy standard error values ranged from -11.8 to 16.01%. Compared with literature methods, the developed method was more selective for determination of VEN and metabolites, required lower consumption of sample and organic solvents, and enabled reuse of the extraction phase. According to the assessed analytical validation parameters and to the analysis of samples obtained from patients undergoing therapy with VEN, the proposed method is suitable to determine VEN, NDV, and ODV in plasma samples for therapeutic drug monitoring.

Molecularly Imprinted Polymers

Polímeros molecularmente impressos

Venlafaxina

Venlafaxine

Conception et Réalisation de Capteurs et de Biocapteurs Électrochimiques à Base de Nanomatériaux pour le Contrôle de la Qualité en Agroalimentaire et pour l'Analyse Biomédicale / Design and Achievement of Electrochemical Sensors and Biosensors Based on Nanomaterials for Food Quality Control and Biomedical Analysis

El Alami el Hassani, Nadia

19 December 2018

Au cours des dernières décennies, les capteurs et les biocapteurs électrochimiques ont connu un développement considérable en raison de leur simplicité, fiabilité, rapidité et sélectivité. Ils ont constitué les alternatives les plus séduisantes pour les méthodes analytiques classiques dans des domaines aussi variés que l'agro-alimentaire, la médecine et la biologie clinique, ou le contrôle de la qualité de l'environnement. Dans ce travail de recherche, nous nous sommes intéressés, dans un premier volet, aux développements des immunocapteurs et capteurs électrochimiques à base des polymères à empreintes moléculaires (MIPs) pour le contrôle de la qualité des miels. La première partie de ce volet concerne le développement des immunocapteurs sur des structures dites Bio-MEMS basées sur des microélectrodes en or. L'élaboration de ces immunocapteurs a été dédiée à la détection des résidus d'antibiotiques à savoir la sulfapyridine (SPy) et la tétracycline (TC). Une nouvelle structure des nanoparticules magnétiques (MNPs) revêtues du copolymère poly (acide pyrrole-co-pyrrole-2-carboxylique) a été exploitée dans ces travaux pour leur réseau d'immobilisation tridimensionnel ainsi que pour leur stabilité pendant de longues périodes. La détection de la SPy et de la TC a été réalisée par différentes approches compétitives en utilisant des anticorps polyclonaux. Dans la deuxième partie de ce volet, nous avons fabriqué des capteurs à base des MIPs pour la détection de la sulfaguanidine, la doxycycline et le chloramphénicol dans le miel. Ces dispositifs ont été développés sur la surface des électrodes sérigraphiées en or en employant une matrice polymérique du polyacrylamide en présence des molécules empreintes. Les performances de ces capteurs et biocapteurs (limite de détection, sélectivité, reproductibilité, application dans les milieux réels) ont ensuite été évaluées. Dans un deuxième volet, nous nous sommes parvenus à appliquer un dispositif de la langue électronique voltammétrique (Langue-EV) pour des analyses agroalimentaires et biomédicales. Dans un premier temps, nous avons discriminé les miels issus de quatorze régions de la France et du Maroc par le dispositif de la Langue-EV. Nous nous sommes aussi parvenus à démontrer la fiabilité de ce dispositif à prédire les résultats des différents paramètres physico-chimiques d'après les réponses des méthodes analytiques utilisées. Dans un deuxième temps, nous sommes passés à l'application du dispositif de la Langue-EV en analyse biomédicale dans le but de discriminer les urines des patientes souffrants des infections urinaires avec celles des femmes saines / In recent decades, the use of electrochemical sensors and biosensors have grown considerably due to their simplicity, reliability, rapidity, and selectivity. They were the most attractive alternative tools for conventional analytical methods in various fields such as food control, medicine, and clinical biology or environmental control. In this research works, we focused, in the first part, on the development of immunosensors and electrochemical sensors based on molecularly imprinted polymers (MIPs) for the quality control of honey. In the second part, we managed to apply a voltammetric electronic tongue (VE-tongue) for food monitoring and biomedical analyzes. The first part of our research work concerns the development of immunosensors based on gold microelectrodes of the Bio-MEMS devices. The development of these immunosensors was dedicated to the detection of antibiotic residues namely sulfapyridine (SPy) and tetracycline (TC). A new structure of magnetic nanoparticles (MNPs) coated with the poly (pyrrole-co-pyrrole-2-carboxylic acid) copolymer has been exploited in this work for their three-dimensional immobilization network as well as for their stability for long periods. The detection of SPy and TC was performed by different competitive approaches using polyclonal antibodies. In this part, we have also synthesized the MIP sensors dedicated to the detection of sulfaguanidine, doxycycline, and chloramphenicol in honey. These devices have been developed on the surface of the screen-printed gold electrodes by employing a polyacrylamide matrix in the presence of the target molecules. The performances of these sensors and biosensors (limit of detection, selectivity, reproducibility, applications in real samples) were then evaluated. Regarding the second part of our research works, it involved the discrimination between honeys from fourteen regions from France and Morocco. We have succeeded in demonstrating the reliability of this device in predicting the results of the different physico-chemical parameters of honey samples according to the responses of the used analytical methods. In other steps, we proceeded to the application of the VE-tongue in biomedical analyzes to discriminate urine specimens of patients suffering from urinary tract infections and those of healthy subjects

Antibiotiques

Contrôle alimentaire

Miel

Nanotechnologie

Immunocapteurs

Polymères à Empreintes moléculaires

Langue électronique

Infections des voies urinaires

Antibiotics

Food Control

Honey

Nanotechnology

Immunosensors

Molecularly Imprinted Polymers

Electronic Tongue

Urinary Tract Infections

540

Elaboration et caractérisation de matériaux fonctionnels pour la stereolithographie biphotonique / Elaboration and characterization of functional materials for two-photon stereolithography

Chia Gomez, Laura Piedad

08 June 2017

La stéréolithographie biphotonique (TPS) est une technique de microfabrication 3D basée sur la polymérisation par absorption biphotonique qui permet d’obtenir en une seule étape des structures 3D complexes avec des détails sub-100nm. Aujourd’hui, en raison des conditions spécifiques de fabrication liées à la TPS (fort flux, confinement spatial de la photoréaction,…), un des enjeux concerne le développement de matériaux fonctionnels compatibles avec ce procédé. Dans ce contexte, l’objectif de cette thèse a été de développer de nouveaux matériaux fonctionnels à base de polymères à empreintes moléculaires (MIP) pour élaborer des capteurs chimiques. Une première partie de ce travail a consisté à mettre en place différentes méthodes dédiées à la caractérisation des propriétés géométriques, chimiques et mécaniques des matériaux élaborés par TPS. Par exemple, la vibrométrie laser a été utilisée pour la première fois afin de sonder de façon non-invasive les propriétés mécaniques de microstructures réalisées par TPS. Dans un second temps, ce travail a été mis à profit pour étudier l’impact du processus de fabrication (i.e. conditions photoniques) ainsi que des paramètres physico-chimiques affectant la photoréaction (i.e. inhibition par oxygène et nature du monomère) sur les propriétés finales des matériaux. Enfin, en s’appuyant sur les résultats obtenus, des microcapteurs chimiques à base de MIP, à lecture optique ou mécanique, ont été fabriqués. Leurs propriétés de reconnaissance moléculaire, ainsi que leurs sélectivités ont été démontrées pour une molécule cible modèle (D-L-Phe). / The two-photon stereolithography (TPS) technique is a micro-nanofabrication method based on photopolymerization by two-photon absorption that allows in a single manufacturing step to obtain complex 3D structures with high-resolution details (sub-100nm). Due to the specific conditions of TPS process (intense photon flux, spatial confinement of the photoreaction…) one of the main concerns today is the development of functional materials compatible with the TPS. According to the aforementioned, the general objective of this thesis was to develop new functional materials based on molecularly imprinted polymers (MIP) to elaborate chemical microsensors. In the first step of this work, different methods were implemented to characterize the geometrical, chemical and mechanical properties of the materials synthesized by TPS. For example, laser-Doppler vibrometry was used for first time to evaluate the mechanical properties of microstructures fabricated by TPS in a non-invasive way. In the second step, the characterization methodology was used to study the impact of the manufacturing process (i.e. photonic conditions) and the physicochemical parameters that affect the photoreaction (i.e. oxygen inhibition and the nature of the monomer) and the final properties of the materials. Finally, the obtained results enabled the prototyping of chemical microsensors based on MIP. Their molecular recognition properties and their selectivity were demonstrated for the molecule (D-L-Phe) by an optical and a mechanical sensing method.

Stéréolithographie à deux-photons

Photopolymérisation

Microfabrication 3D

Matériaux fonctionnels

Polymères à empreintes moléculaires

Microcapteurs chimiques

Vibrométrie laser

Ecriture laser directe

Two-photon stereolithography

Photopolymerization

Micro-nanofabrication

Functional materials

Molecularly imprinted polymers

Chemical microsensors

Laser vibrometry

Direct laser writing

Desenvolvimento de uma fase extratora com polímeros de impressão molecular para extração em fase sólida de Venlafaxina, O-desmetilvenlafaxina e N-desmetilvenlafaxina em amostras de plasmas e análises por cromatografia líquida de ultra eficiência acoplada à espectometria de massas em tandem (UPLC-MS/MS). / Development of an extraction phase with molecularly imprinted polymers for solid phase extraction of venlafaxine, o-desmethylvenlafaxine, and n-desmethylvenlafaxine in plasma samples and analysis by Ultra Performance Liquid Chromatography-tandem mass spectrometry (UPLC-MS/MS)

Luís Felippe Cabral Miranda

18 March 2015

A venlafaxina (VEN), em razão de sua eficácia e brandos efeitos adversos, tem sido um dos antidepressivos mais prescritos no tratamento da depressão e ansiedade. Neste trabalho, um método analítico empregando as técnicas MISPE miniaturizada e cromatografia líquida acoplada à espectrometria de massas em Tandem, foi utilizado para a determinação de VEN e seus principais metabólitos em amostras de plasma para fins de monitorização terapêutica. A fase MIP foi sintetizada via polimerização radicalar por precipitação, fazendo uso de VEN (molécula molde), ácido metacrílico (monômero funcional), etileno glicol dimetacrilato, (reagente reticulante) e 2,2 azobisisobutironitrila (iniciador radicalar) em tolueno (solvente). Para controle utilizou-se o polímero não impresso (NIP), sintetizado por procedimento análogo ao do MIP, porém sem o uso da molécula molde. A caracterização química e estrutural dos polímeros foi realizada por espectroscopia no infravermelho com transformada de fourier e microscopia eletrônica de varredura. A otimização das variáveis de MISPE miniaturizada favoreceu a detectabilidade analítica e diminuiu o efeito de memória. As extrações realizadas com MIP apresentaram taxa de recuperação de 84% para VEN e de 2-28% para os antidepressivos (clorpromazina, fluoxetina, clomipramina, imipramina e sertralina). O polímero não impresso apresentou baixa recuperação para a VEN (taxa de recuperação: 49%) e para os demais antidepressivos (taxas de recuperação menores que 40%). Estes experimentos comprovam a seletividade da fase MIP desenvolvida. O método padronizado apresentou linearidade na faixa de 3 a 700 ng mL-1 para VEN, 5 a 700 ng mL-1 para O-desmetilvenlafaxina (ODV) e de 3 a 500 ng mL-1 para N-desmetilvenlafaxina (NDV), precisão com coeficientes de variação menores que 15% e exatidão com valores de erro padrão relativo na faixa de -11,8 a 16,01 %. As concentrações correspondentes aos limites inferiores de quantificação para VEN (3 ng mL-1) e ODV ( 5 ng mL-1) foram inferiores aos intervalos terapêuticos preconizados. O método desenvolvido, quando comparado a aos métodos da literatura para determinação de VEN e metabolitos, apresentou maior seletividade, menor consumo de amostra e de solventes orgânicos e permitiu a reutilização da fase extratora. Segundo os parâmetros de validação analítica avaliados e amostras de pacientes em terapia com VEN analisadas, o método proposto é adequado para determinação de VEN, ODV e NDV em amostras de plasma para fins de monitorização terapêutica. / Venlafaxine elicits a small number of adverse effects, so it is one of the most frequently prescribed drugs to treat major depression, generalized anxiety, and social anxiety disorders in adults. In this study, venlafaxine (VEN), O-desmethylvenlafaxine (ODV), and N-desmethylvenlafaxine (NDV) were pre-concentrated with the aid of miniaturized SPE based on MIPs as extraction phase. MIPs are synthetic polymers with cavities specifically designed to hold a target molecule or structurally similar compounds. The molecularly imprinted polymers were prepared by addition of VEN, metacrylic acid (MAA, monomer), ethylene glycol dimethacrylate (EGDMA, cross-linker), and 2,2-azobisisobutyronitrile (AIBN, initiator) to toluene (solvent). The non-imprinted polymer (NIP), used for comparison, was also synthesized by following exactly the same procedure, but excluding the template VEN from the formulation. The polymer was characterized by Fourier transform infrared spectroscopy and scanning electron microscopy (SEM). Optimization of the MIP phase extraction variables favored miniaturized analytical detectability and reduced the memory effect. The extractions performed with the synthesized MIP showed recovery rate of 84% for VEN and 2-28% for other antidepressants (chlorpromazine, fluoxetine, clomipramine, imipramine, and sertraline). The non-imprinted polymer provided low recovery of VEN (recovery rate: 49%) and other antidepressants (recovery rates lower than 40%). These experiments demonstrated the selectivity of the developed MIP phase. The standardized method was linear in the range of 300 - 700 ng mL-1 for VEN, 5-700 ng mL-1 for ODV, and 3 to 500 ng mL-1 for NDV. Precision had coefficients of variation smaller than 15%; the accuracy standard error values ranged from -11.8 to 16.01%. Compared with literature methods, the developed method was more selective for determination of VEN and metabolites, required lower consumption of sample and organic solvents, and enabled reuse of the extraction phase. According to the assessed analytical validation parameters and to the analysis of samples obtained from patients undergoing therapy with VEN, the proposed method is suitable to determine VEN, NDV, and ODV in plasma samples for therapeutic drug monitoring.

Polímeros molecularmente impressos

Venlafaxina

Molecularly Imprinted Polymers

Venlafaxine