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Fabricação, caracterização e aplicação de pontas de prova eletroquímicas multifuncionais para técnicas de microscopia de varredura de ponta de prova eletroquímica / Fabrication, characterization and applications of multifunctional probes for scanning electrochemical probe microscopy techniquesMeloni, Gabriel Negrão 17 November 2017 (has links)
Esta tese apresenta os achados e avanços obtidos na fabricação, caracterização e aplicação de pontas de prova eletroquímicas multifuncionais para a obtenção de informações eletroquímicas resolvidas no espaço em diversas superfícies/interfaces por meio de técnicas de microscopia de varredura de ponta de prova eletroquímica (SEPM, em inglês). Diferentes designs de pontas de prova multifuncionais foram investigados e, devido a natureza não convencional destas, novos métodos para fabricação e caracterização foram desenvolvidos. Os benefícios da utilização de pontas de prova multifuncionais para a obtenção de informações eletroquímicas resolvidas no espaço ficaram evidente durante a realização de experimentos \"prova de conceito\", onde a maior densidade de informação obtida permitiu o estudo de sistemas mais complexos e a aquisição de informações eletroquímicas livre de interferência topográfica mesmo em superfícies não planas. A hibridização de diferentes técnicas de microscopia de varredura de ponta de prova eletroquímica em uma única ponta de prova também foi investigada o que se provou extremamente útil para a aquisição de imagens eletroquímicas de alta resolução, livres de influências topográficas, quando utilizada a técnica de microscopia de condutividade iônica (SICM, em inglês) como sensor de topografia do substrato investigado. Por ultimo, uma nova técnica, baseada na microscopia de condutividade iônica, que se utiliza de pontas de prova eletroquímicas multifuncionais fabricadas a partir de uma nanopipeta de um único canal, foi desenvolvida. Esta nova técnica se mostrou extremamente ponderosa, capaz de obter informações a respeito da topografia e mapear sítios ativos sobre um substrato utilizando uma nanopipeta de um único canal com alta resolução especial e temporal a uma taxa de aproximadamente 4000 pixels por Segundo. / This thesis presents the findings and advances made on fabrication, characterization and application of multifunctional electrochemical probes to acquire space resolved electrochemical information on diverse surfaces/interfaces employing Scanning Electrochemical Probe Microscopy (SEPM) techniques. Different multifunctional probes designs were investigated and new and innovative methods for fabrication and characterization of those probes were developed, which was necessary due to the unconventional nature of most of the probes studied. The benefits of using multifunctional probes for space resolved electrochemical measurements was clear during \"proof-of-concept\" experiments, where the increased density of information allowed the study of complex systems and the acquisition of topography-free electrochemical information of rough surfaces. The hybridization of different SEPM techniques in a single probe tip was also investigated, and this was found to be extremely beneficial, especially for acquiring high-resolution, topography-free, electrochemical images employing Scanning Ion Conductance Microscopy as a topography feedback. Finally, a new SICM technique, based on the use of a multifunctional probe tip fabricated from a single barrel nanopipette, was developed. This new technique was found to be extremely powerful, capable of acquiring information on topography and map active sites over substrates using a single barrel pipette with high spatial and temporal resolution at a rate of approx. 4000 pixels per second.
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Fabricação, caracterização e aplicação de pontas de prova eletroquímicas multifuncionais para técnicas de microscopia de varredura de ponta de prova eletroquímica / Fabrication, characterization and applications of multifunctional probes for scanning electrochemical probe microscopy techniquesGabriel Negrão Meloni 17 November 2017 (has links)
Esta tese apresenta os achados e avanços obtidos na fabricação, caracterização e aplicação de pontas de prova eletroquímicas multifuncionais para a obtenção de informações eletroquímicas resolvidas no espaço em diversas superfícies/interfaces por meio de técnicas de microscopia de varredura de ponta de prova eletroquímica (SEPM, em inglês). Diferentes designs de pontas de prova multifuncionais foram investigados e, devido a natureza não convencional destas, novos métodos para fabricação e caracterização foram desenvolvidos. Os benefícios da utilização de pontas de prova multifuncionais para a obtenção de informações eletroquímicas resolvidas no espaço ficaram evidente durante a realização de experimentos \"prova de conceito\", onde a maior densidade de informação obtida permitiu o estudo de sistemas mais complexos e a aquisição de informações eletroquímicas livre de interferência topográfica mesmo em superfícies não planas. A hibridização de diferentes técnicas de microscopia de varredura de ponta de prova eletroquímica em uma única ponta de prova também foi investigada o que se provou extremamente útil para a aquisição de imagens eletroquímicas de alta resolução, livres de influências topográficas, quando utilizada a técnica de microscopia de condutividade iônica (SICM, em inglês) como sensor de topografia do substrato investigado. Por ultimo, uma nova técnica, baseada na microscopia de condutividade iônica, que se utiliza de pontas de prova eletroquímicas multifuncionais fabricadas a partir de uma nanopipeta de um único canal, foi desenvolvida. Esta nova técnica se mostrou extremamente ponderosa, capaz de obter informações a respeito da topografia e mapear sítios ativos sobre um substrato utilizando uma nanopipeta de um único canal com alta resolução especial e temporal a uma taxa de aproximadamente 4000 pixels por Segundo. / This thesis presents the findings and advances made on fabrication, characterization and application of multifunctional electrochemical probes to acquire space resolved electrochemical information on diverse surfaces/interfaces employing Scanning Electrochemical Probe Microscopy (SEPM) techniques. Different multifunctional probes designs were investigated and new and innovative methods for fabrication and characterization of those probes were developed, which was necessary due to the unconventional nature of most of the probes studied. The benefits of using multifunctional probes for space resolved electrochemical measurements was clear during \"proof-of-concept\" experiments, where the increased density of information allowed the study of complex systems and the acquisition of topography-free electrochemical information of rough surfaces. The hybridization of different SEPM techniques in a single probe tip was also investigated, and this was found to be extremely beneficial, especially for acquiring high-resolution, topography-free, electrochemical images employing Scanning Ion Conductance Microscopy as a topography feedback. Finally, a new SICM technique, based on the use of a multifunctional probe tip fabricated from a single barrel nanopipette, was developed. This new technique was found to be extremely powerful, capable of acquiring information on topography and map active sites over substrates using a single barrel pipette with high spatial and temporal resolution at a rate of approx. 4000 pixels per second.
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Entwicklung eines Fusionsassays basierend auf porenüberspannenden Membranen / Development of a fusion assay based on pore-spanning membranesHöfer, Ines 05 July 2011 (has links)
No description available.
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Effets de l'étirement axial sur des cardiomyocytes murins déficients en dystrophine : dérégulation calcique et canaux TRPs / Effects of axial stretch on murine deficient-dystrophin cardiomyocytes : calcium deregulation and TRPs channelsAguettaz, Elizabeth 29 June 2015 (has links)
La dystrophie musculaire de Duchenne (DMD) est la conséquence de la perte de la dystrophine, protéine sous membranaire indispensable au maintien mécanique et fonctionnel du sarcolemme. Cette déficience augmenterait les influx cationiques par des microruptures de la membrane ou par la dérégulation de canaux tels que les canaux activés par l'étirement (SACs: Stretch-activated channel). Dans ce travail, les effets d'une stimulation mécanique ont été explorés sur des cardiomyocytes dans le contexte pathologique de la cardiomyopathie dilatée associée à la DMD. L'utilisation de fibres de carbone a permis de réaliser un étirement axial similaire aux conditions physiologiques de remplissage ventriculaire. Dans ces conditions, l'exploration de la topographie membranaire par la microscopie de conductance ionique à balayage n'a montré aucune évolution de la surface ni de lésion du sarcolemmel dans les conditions d'étirement. L'étude s'est donc focalisée sur l'activité de candidats moléculaires des SACs et plus particulièrement ceux appartenant à la famille des TRPs (Transient Receptor Potential) dans le dérèglement de l'homéostasie calcique induite par l'étirement. Les influx cationiques évalués par la technique d'extinction de fluorescence et l'étude de la concentration intracellulaire de Ca2+ ([Ca2+]i) grâce à la sonde Fluo8 montrent une implication des canaux TRPV2 et TRPCs. Les premiers semblent responsables d'une entrée cationique et d'une augmentation de [Ca2+]i importante dans les cardiomyocytes mdx. Les seconds, bien que responsables d'un influx, ne participeraient pas à l'augmentation de [Ca2+]i. Ces résultats révèlent que les canaux TRPV2 pourraient jouer un rôle important dans la dérégulation calcique observée dans les cardiomyocytes déficients en dystrophine. / Duchenne muscular dystrophy (DMD) is the consequence of the loss of dystrophin, a subsarcolemmal protein essential for mechanical and functional maintenances of the sarcolemma. This deficiency could increase cationic influxes by membrane microruptures or by dysregulation of channels such as stretch-activated channels (SACs). In this work, the effects of a mechanical stretch were explored on cardiomyocytes in the pathological context of dilated cardiomyopathy associated with DMD. Using carbon fibers, an homogenous axial stretch was performed to mimic physiological conditions of ventricular filling. In these conditions, exploration of membrane topography using the scanning ion conductance microscopy did not show any surface evolution or sarcolemma disruption in stretch condition. The study was thus focused on activity and identification of molecular candidates for SACs, especially the TRPs (Transient Receptor Potential) channels in the stretch-induced. Ca2+ homeostasis dysregulation. Cationic influxes assessed by Mn2+-quenching and assessment of the intracellular Ca2+ concentration ([Ca2+]i) using fluo-8 fluorescence demonstrated an involvement of TRPV2 and TRPCs channels. The first ones seem to be responsible for cationic entry and [Ca2+]i increase in mdx cardiomyocytes. The latter, though responsible for an influx, do not contribute to [Ca2+]i increase. These findings reveal that TRPV2 channels could play an important role in calcium dysregulation observed in dystrophin-deficient cardiomyocytes.
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Investigation of voltage- and light-sensitive ion channelsFromme, Ulrich 29 February 2016 (has links)
No description available.
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A scanning ion conductance microscopy assay to investigate interactions between cell penetrating peptides and pore-suspending membranesSaßen, Christoph 22 October 2013 (has links)
Die Rasterionenleitfähigkeitsmikroskopie (scanning ion conductance microscopy, SICM) stellt eine kontaktfreie Methode zur Ermittlung sowohl der Topographie als auch lokalen Ionenleitfähigkeit einer Oberfläche dar. Besonders vorteilhaft ist die Vermeidung mechanischer Beeinflussung bei der Untersuchung flexibler Strukturen, z.B. Lipiddoppelschichten wie Zellen oder künstlich erzeugter Lipidmembranen. Porenüberspannende Membranen (pore-suspending membranes, PSMs) verbinden als ein Beispiel für Modellsysteme eine hohe Stabilität mit lateraler Mobilität und dem Vorhandensein wässriger Kompartimente ober- und unterhalb der Doppelschicht, wie sie auch in der Natur gefunden werden. Ein wichtiges Forschungsgebiet stellt die Untersuchung der Wechselwirkung von Peptiden, besonders zellpenetrierenden Peptiden (cell penetrating peptides, CPPs), mit Lipiden und anderen Membranbestandteilen dar. Häufig untersuchte Beispiele sind Melittin, Hauptbestandteil des Giftes der Honigbiene Apis mellifera, sowie Penetratin, dritte Helix der Antennapedia Homöodomäne von Drosophila melanogaster.
Generalisierte Protokolle zur Herstellung lösungsmittelfreier PSMs werden vorgestellt. Riesige unilamellare Vesikel (giant unilamellar vesicles, GUVs) unterschiedlicher Lipidzusammensetzung wurden hierzu auf porösem Siliziumnitrid (Si3N4), welches mit Cholesterylpolyethylenoxythiol (CPEO3, hydrophob) bzw. Mercaptoethanol (ME, hydrophil) funktionalisiert worden war, gespreitet. Verwendet wurden GUVs aus reinen Phosphatidylcholin (PC)-Lipiden sowie aus Mischungen von PC-Lipiden mit Cholesterol und PC-Lipiden mit Phosphatidylserin (PS)-Lipiden. Der Erfolg des Spreitvorgangs wurde durch Abbilden mittels konfokaler Rasterlasermikroskopie (confocal laser scanning microscopy, CLSM) und SICM verifiziert.
Der Hauptteil dieser Arbeit behandelte die Entwicklung und Anwendung CLSM- und SICM-basierter CPP-Titrationsassays zur Aufklärung des Einflusses der Substratfunktionalisierung und der Lipidzusammensetzung der Membranen auf die Wechselwirkung zwischen Melittin bzw. Penetratin und den Lipiddoppelschichten. CLSM-Experimente wurden mit Melittin auf allen zur Verfügung stehenden PSMs sowohl auf hydrophob als auch hydrophil funktiona-lisierten Substraten durchgeführt, während Penetratin auf den drei unterschiedlichen PSMs auf hydrophil funktionalisierten Substraten verwendet wurde. Ein Reißen der Membranen wurde im Fall hydrophil funktionalisierter Substrate für beide Peptide im Bereich von 1–3 µM beobachtet. Bei hydrophob funktionalisierten Substraten induzierte eine dreifach geringere Melittinkonzentration die Zerstörung der Membranen. Sowohl auf hydrophob als auch auf hydrophil funktionalisierten Substraten wurde bei einem Cholesterolanteil von 10% eine Erhöhung der zum Reißen notwendigen Melittinkonzentratin erhalten, während bei 20% PS-Anteil eine Verschiebung zu geringeren Konzentrationen evident wurde. SICM-Experimente wurden mit Melittin auf PC/Cholesterol-PSMs auf hydrophob und hydrophil funktionalisierten Substraten und mit reinen PC-PSMs auf hydrophil funktionalisierten Membranen durchgeführt. Es wurden keine signifikanten Konzentrationsunterschiede beobachtet; die gefundenen Konzentrationsbereiche jedoch stimmten mit denen der CLSM-Experimente überein. Darüberhinaus wurde vor dem Reißen der Membranen ein Ansteigen der Porentiefe gefunden, das mit einer erhöhten Membranpermeabilität korrespondiert.
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Scanning Ion Conductance Microscopy for Single Cell Imaging and AnalysisPanday, Namuna 29 March 2017 (has links)
Most biological experiments are performed on an ensemble of cells under the assumption that all cells are identical. However, recent evidence from single cells studies reveals that this assumption is incorrect. Individual cells within the same generation may differ dramatically, and these differences have important consequences for the health and function of the entire living body. I have used Scanning Ion Conductance Microscopy (SICM) for imaging and analysis of topographical change of single cell membrane, which is difficult to be revealed by optical microscopes. Morphological change in the fixed and live HeLa cell membrane during endocytosis of conjugated polymer nanoparticles was studied. Results demonstrated SICM is a powerful tool to study the interaction between nanoparticle and cell membrane during internalization of nanoparticles through the membrane. This research can improve our fundamental understanding of cellular behavior and will be helpful for drug delivery applications.
Based on conventional SICM, we have developed a novel method to simultaneous map the topography and potential distributions of the single living cells membranes. At the first step, multifunctional nanopipettes (nanopore/nanoelectrode) have been fabricated and characterized. To demonstrate the potential sensing capability and understand the mechanism, I measured the ionic current and local electric potential change during translocation of 40 nm charged gold nanoparticles. Our results reveal the capability of the multifunctional probe for the highly sensitive detection of the ionic current and local electrical potential changes during the translocation of the charged entity through the nanopore. From the potential change, we revealed the dynamic assembly of GNPs before entering the nanopore. The experimental results are also nicely explained by the finite element method based numerical simulation results.
At the second step, I have measured the surface potential of living cell membrane at selected locations. Very recently, I have obtained results to show that we can map the extracellular membrane potential distribution of the complicated living cell membrane with sub-micron spatial resolution.This new imaging technique can help biologist to explore the extracellular potential distribution of varieties of cells quantitatively.These studies will have impacts on several biomedical applications such as regenerative repair and cancer treatment.
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Augmentation de la durée de vie de composites à matrice céramique : rôle des fibres Si-C-O et des interphases B-C-NPuyoo, Géraldine 09 March 2012 (has links)
Cette thèse s’inscrit dans le cadre d’un programme de recherche en collaboration avec l’industrie dont l’enjeu est d’utiliser des composites à matrice céramique (CMC) pour la réalisation d’arrière-corps de moteurs pour l’aviation civile.La première partie de ce travail est consacrée à l’étude des fibres de carbure de silicium (Si-C-O) de première génération. Diverses caractérisations physico-chimiques (analyse chimique élémentaire, MEB, MET, spectroscopie Raman, RMN du solide du 29Si et du 13C, DRX…) ont permis d’établir des relations entre la composition chimique, la structure et les propriétés mécaniques des différentes fibres (Nicalon NL série 100 et 200, et Tyranno LoxM, S, ZMI et AM). Une simulation thermodynamique de la phase amorphe intergranulaire SiCxOy a été proposée en s’appuyant sur des données calorimétriques de la littérature obtenues à partir de verres d’oxycarbure de silicium.La seconde partie de ce mémoire est consacrée à l’élaboration par dépôt chimique à partir d’une phase vapeur (CVD) et à la caractérisation de revêtements d’interphase B-C-N. L’influence des conditions d’élaboration (température, pression, composition initiale des gaz) sur la composition chimique des dépôts, leur structure et leur résistance à l’oxydation sous air sec et ambiant a été étudiée. Enfin, les propriétés mécaniques de ces interphases ont été évaluées et des essais de durée de vie ont été réalisés à l’échelle du microcomposite. / This thesis is a part of a research project in partnership with the industry. The aim of the overall project is to design, develop and manufacture exhaust components made of Ceramic Matrix Composites (CMC’s) for civil aircraft engines.The first part of the work deals with the study of first generation silicon carbide fibres (Si-C-O). Various physical and chemical characterizations (quantitative elemental analysis, SEM, TEM, Raman spectroscopy, solid NMR of 29Si and 13C, X-ray diffraction …) were carried out in order to understand the relation between the chemical composition, the structure and the mechanical properties of silicon oxycarbide fibres (Nicalon NL series 100 and 200, and Tyranno LoxM, S, ZMI and AM). Besides, a thermodynamic description of the amorphous SiCxOy phase based on high temperature calorimetry data from the literature is proposed.The second part is devoted to elaboration, by Low Pressure Chemical Vapour Deposition (LP-CVD), and characterization of hexagonal boron carbonitride (B-C-N) coatings. The chemical composition, structure and oxidation resistance (in dry or ambient air) of the coatings were investigated as a function of the deposition conditions (temperature, pressure, initial gas phase composition). Finally, the use of B-C-N coatings as interphases in CMC’s (i.e. their ability to deflect matrix cracks) was investigated by tensile tests on SiC/SiC microcomposites. Their lifetime in static fatigue was also evaluated at 550°C in room atmosphere.
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