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Showing 861 to 870 of 962 (0.05 seconds)Spelling suggestions: "subject:"atomic force"" "subject:"atomic sorce""
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Interactions peptides antibactériens - surfaces bactériennes : Etude de la carnobactériocine Cbn BM1, une bactériocine de classe IIa / Antimicrobial peptide - bacterial surfaces interactions : Study of the class IIa bacteriocin Cbn BM1Jacquet, Thibaut 23 November 2011 (has links)
Les bactériocines de classe IIa présentent une activité antimicrobienne résultant d'un mécanisme d'action ciblant les membranes des bactéries à Gram positif. Cette activité est modulée par différentes caractéristiques des surfaces bactériennes. Les propriétés physico-chimiques de surface de dix-huit souches bactériennes ont été déterminées afin d'étudier le lien entre ces propriétés et les phénotypes de résistance/sensibilité à Cbn BM1. Les résultats obtenus indiquent une grande diversité des propriétés physico-chimiques des surfaces analysées, sans cependant permettre d’établir un lien entre celles-ci et le phénotype de sensibilité/résistance à CbnBM1. Les mécanismes d'action de Cbn BM1 ont ensuite été étudiés sur Carnobacterium maltaromaticum DSM20730 et Listeria monocytogenes EGDe. L'atteinte de l'intégrité physique des membranes plasmiques par l'action de Cbn BM1 montre une hétérogénéité de réponse des populations bactériennes. Ce résultat a été confirmé par microscopie de force atomique in vivo à haute résolution. L'interaction de Cbn BM1 avec les membranes a été mise en évidence par mesure de l'anisotropie de fluorescence. Cette approche a révélé que Cbn BM1 présente des degrés de pénétration différents dans la membrane de C. maltaromaticum DSM20730 par rapport à L. monocytogenes EGDe. L'action de Cbn BM1 conduit cependant, pour les deux souches, à la modification de la force protomotrice membranaire. Ces différentes approches retenues pour l'étude des mécanismes d'action ont révélé que C. maltaromaticum DSM20730 et L. monocytogenes EGDe présentent une sensibilité à Cbn BM1 uniquement lorsque les cellules sont en phase exponentielle de croissance. / The antimicrobial activity of class IIa bacteriocins toward Gram positive bacteria relies on their membrane targeting mechanisms of action. These mechanisms are modulated by the bacterial surface properties. The physico-chemical surface properties of eighteen bacterial strains were determined to link these properties to the resistance/sensitivity to Cbn BM1 of the bacterial strains. In this way, two approaches were undertaken : the microbial adhesion to solvents and electrophoretic mobility measurements. The results show a large diversity of the determined properties among the strains but without establishing a direct link between the surface properties and the resistance/sensitivity phenotypes. Mechanisms of action of the bacteriocin Cbn BM1 on Carnobacterium maltaromaticum DSM20730 and Listeria monocytogenes EGDe were determined. Syto9® and propidium iodide allowed to show the heterogeneity of the bacterial populations toward the alteration of the membrane integrity. The interaction of Cbn BM1 with the bacterial membrane was studied by monitoring the fluorescence anisotropy of DPH and TMA-DPH. The results highlight a difference between the mechanism of action of Cbn BM1 on C. maltaromaticum DSM20730 and on L. monocytogenes EGDe. However, a treatment by Cbn BM1 leads to a perturbation of the component of the proton-motive force of the membrane for both strains. These approaches revealed that these bacterial strains exhibit a sensitivity to Cbn BM1 only when treated in log growth phase. Modification of nano-mechanical properties of C. maltaromaticum DSM20730 after a treatment by Cbn BM1 were assessed by an atomic force microscopy approach.
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Propriétés structurales, électroniques et ferroélectriques de systèmes Ln₂Ti₂O₇ (Ln=lanthanides) et d'hétérostructures SrTiO₃ / BiFeO₃ / Structural, electronic and ferroelectric properties of Ln₂Ti₂O₇ oxydes (Ln = lanthanide) and SrTiO₃ / BiFeO₃heterostructuresBruyer, Emilie 21 November 2012 (has links)
Ce manuscrit est consacré à l’analyse théorique et expérimentale d’oxydes Ln2Ti2O7 (Ln = La, Nd, Sm, Gd) et BiFeO3.Les propriétés physiques de La2Ti2O7 et Nd2Ti2O7 ont été investiguées au moyen de calculs ab initio, confirmant ainsi leur ferroélectricité. D’autres oxydes de la famille Ln2Ti2O7, Sm2Ti2O7 et Gd2Ti2O7, ont ensuite été étudiés selon les mêmes méthodes théoriques. Nos calculs ont révélé une meilleure amplitude de polarisation pour ces composés par rapport au La2Ti2O7 et au Nd2Ti2O7. La deuxième partie de ce travail est consacrée aux propriétés structurales, électroniques et ferroélectriques du BiFeO3. L’évolution de ses propriétés lorsqu’il est soumis à une contrainte épitaxiale ont été investiguées au moyen de calculs ab-initio et de mesures en microscopie à champ proche réalisées sur des couches minces déposées sur un substrat de SrTiO3(001). Nos résultats mettent en évidence une modification de la structure interne du matériau sous effet de contrainte, qui se traduit par une réorientation progressive de la polarisation spontanée suivant la direction [001]. Notre étude s’est ensuite tournée vers l’élaboration et l’analyse des propriétés structurales et ferroélectriques de superréseaux (SrTiO3)n(BiFeO3)m. Nos calculs ont mis en évidence que la contrainte épitaxiale imposée au superréseau offrait un contrôle accru des propriétés du BiFeO3 par rapport à son comportement lorsqu’il est déposé seul en couches minces. Les analyses en microscopie à champ proche ont montré une réduction de la tension coercitive de tels films par rapport à celle mesurée sur des bicouches SrTiO3/BiFeO3 ou sur une couche mince de BiFeO3. / In this work, first-principles calculations and experimental measurements have been done in order to investiguate the structural, electroniq and ferroelectric properties of Ln2Ti2O7 (Ln = La, Nd, Sm, Gd) and BiFeO3 oxydes. Calculations on La2Ti2O7 and Nd2Ti2O7 confirmed their ferroelectricity. Other oxydes belonging to the Ln2Ti2O7 family have also been investigated. The results showed an enhancement of the spontaneous polarization within these compounds compared to that of La2Ti2O7 and Nd2Ti2O7. The second part of this work is related to the structural and ferroelectric properties of bismuth ferrite BiFeO3. The evolution of its properties when undergoing an epitaxial strain have been investigated by ab initio calculations and piezoresponse force microscopy measurements on thin films deposited on a (001)-SrTiO3 substrate. Our results showed a modification of the inner structure of BiFeO3 under stain, leading to a continuous reorientation of the spontaneous polarization vector towards [001]. The third part of our study consists in the computational design and synthesis of (SrTiO3)n(BiFeO3)m superlattices. Our calculations showed that epitaxial strain imposed to the superlattice brings a further control of physical properties of BiFeO3 as compared with its behaviour when deposited alone in a thin film. PFM analysis showed a decrease of the coercive field for STO/LNO/(STO)n(BFO)m superlattices as compared with those measured on STO/BFO bi-layers and on BiFeO3 thin films.
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Jaderný myosin 1 a jeho role v regulaci tenze cytoplazmatické membrány / Nuclear myosin 1 and its role in the regulation of plasma membrane tensionPetr, Martin January 2014 (has links)
Myosin 1c (Myo1c) is a molecular motor involved in regulation of tension-gated ion channels, exocytosis, endocytosis, motility and other membrane-related events. Moreover, it acts as a dynamic linker between the cell membrane and cortical actin network, contributing to the maintenance of plasma membrane tension. In contrast, nuclear myosin 1 (NM1), an isoform of Myo1c, has been described only in the nucleus where it participates in various nuclear processes, including transcription or chromatin remodeling. However, although traditionally regarded as exclusively cytoplasmic or nuclear, all myosin 1c isoforms participate in nuclear functions and they are present in the cytoplasm as well. The main focus of this study was to characterize the functional significance of NM1 in the cytoplasm. We have found that NM1 localizes to plasma membrane and shows a uniform punctuated distribution with a high concentration at the cell periphery. Moreover, atomic force microscopy measurements of mouse NM1 KO fibroblasts revealed a significant increase in an overall plasma membrane elasticity in comparison to WT cells, indicating a disruption in the regulation of plasma membrane tension caused by the loss of NM1. Since a higher membrane elasticity and deformability is a characteristic marker of cancer cells,...
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Développement d’une imagerie de résistance électrique locale par AFM à pointe conductrice en mode contact intermittent / Development of a local electrical resistance imaging by conductive tip AFM in intermittent contact modeVecchiola, Aymeric 29 April 2015 (has links)
Le microscope à force atomique (AFM) permet de caractériser avec une excellente résolution spatiale les surfaces d’échantillons de différentes natures et peut être mis en œuvre dans des milieux variés. Cette versatilité a favorisé le développement d’un grand nombre de techniques dérivées, destinées à investiguer diverses propriétés physiques locales. Le LGEP a ainsi réalisé un module, le Résiscope, capable de mesurer la résistance électrique locale à la surface d’un échantillon polarisé en continu, sur une gamme de 11 décades. Mise au point en mode contact, où la pointe exerce en permanence une force sur l’échantillon, cette technique fonctionne très bien sur des matériaux durs, mais trouve ses limites sur des échantillons mous ou fragiles puisque dans certaines conditions, la pointe peut altérer leur surface. Pour de tels échantillons, un mode contact intermittent, dans lequel la pointe vient à intervalles réguliers toucher très brièvement la surface, est plus approprié, mais complique la réalisation des mesures électriques. Le but de la thèse consistait à lever cette difficulté en modifiant le Résiscope pour pouvoir l’associer au « Pulsed Force Mode », mode intermittent où la pointe oscille à une fréquence de 100Hz à 2000Hz.Différentes évolutions matérielles et logicielles ont été apportées pour permettre le suivi temporel détaillé du signal de résistance électrique à chaque établissement/rupture de contact (indispensable pour passer en revue les phénomènes liés à l’intermittence), de même que pour pouvoir travailler à des vitesses de balayage acceptables. Pour l’imagerie, les meilleurs contrastes ont été obtenus grâce à une électronique de synchronisation et de traitement prenant en compte les valeurs de résistance électrique à des moments bien précis. Pour tester ce nouveau système, nous avons dans un premier temps comparé les courbes de résistance et de déflexion que nous obtenons par ce mode avec celles considérées classiquement dans le mode approche-retrait. Nous avons ensuite étudié l’influence des principaux paramètres (fréquence et amplitude d’oscillation, force d’appui, type de pointe, etc.) sur les mesures topographiques et électriques, en utilisant le HOPG comme matériau de référence. Ces essais ont notamment permis de mettre en évidence un retard quasi systématique du signal électrique par rapport au signal de déflexion (autre que le temps de mesure propre au Résiscope), dont nous n’avons pu élucider l’origine. Une fois ces connaissances acquises, nous avons étudié deux types d’échantillons organiques, l’un à caractère académique – des monocouches auto-assemblées d’alcanethiols (SAMs), l’autre à finalité plus applicative – des couches minces formées d’un réseau interpénétré de deux constituants (P3HT:PCBM) destinées aux cellules photovoltaïques. Dans les deux cas nous avons montré la pertinence de l’outil Résiscope en mode intermittent pour obtenir des informations qualitatives et quantitatives. Parallèlement à ces travaux sur matériaux fragiles, nous avons mené une étude annexe sur un phénomène de croissance de matière à caractère isolant constaté dans des conditions particulières sur différents matériaux durs, qui a été interprété comme la formation de polymère de friction sous l’effet des nano-glissements répétés associés à la déflexion du levier.Ces travaux ont été réalisés dans le cadre d’une convention CIFRE avec la société Concept Scientifique Instruments, adossée au projet ANR « MELAMIN » (P2N 2011). / The atomic force microscope (AFM) allows to characterize with excellent spatial resolution samples of different types of surfaces and can be implemented in various environments. This versatility has encouraged the development of a large number of derivative technics, intended to investigate various local physical properties. The LGEP thus achieved a module, the Résiscope, capable of measuring the local electrical resistance on the surface of a sample polarized continuously, on a range of 11 decades. Developed in contact mode, where the tip continuously exerts a force on the sample, this technic works well on hard materials, but finds its limits on soft or fragile samples since under certain conditions, the tip can alter the surface. For such samples, an intermittent contact mode, in which the tip comes at regular intervals touch very briefly the surface, is more appropriate, but complicates the achievement of electrical measurements. The aim of this thesis was to overcome this difficulty by changing the Résiscope to be able to join the "Pulsed Force Mode", intermittent mode where the tip oscillates at a frequency of 100Hz to 2000Hz. Different hardware and software changes have been made to permit the detailed temporal monitoring of the electrical resistance signal to each make / break contact (necessary to review the phenomena related to intermittency), as well as to be able to work in acceptable scan speeds. For imaging, the best contrasts were obtained through an electronic timing and treatment taking into account the electrical resistance values at specific times.To test this new system, we have initially compared resistance and deflection curves we get by this mode with those considered classically in the force-distance curves mode. We then investigated the influence of main parameters (frequency and amplitude of oscillation, setpoint, coating of the tips, etc.) on the topographical and electrical measurements, using the HOPG as reference material. These tests resulted to highlight a nearly systematic delay of the electrical signal relative to the deflection signal (other than the Resiscope measure time), which we were not able to elucidate the origin. Once these knowledge acquired, we studied two types of organic samples, one in academic nature - Self-Assembled Monolayers of alkanethiols (SAMs), the other more applicative purpose – formed of thin layers of an interpenetrating network of two components (P3HT:PCBM) for photovoltaic cells. In both cases we have shown the relevance of the Resiscope tool in intermittent mode to obtain qualitative and quantitative information. In addition to these work on fragile materials, we conducted an annex study on a phenomenon of growth material of insulating nature found in special conditions on various hard materials, which has been interpreted as the friction polymer formation as a result of repeatedly nano-sliding associated with the deflection of the cantilever. These investigations were conducted under a CIFRE agreement with the Concept Scientific Instruments company, backed by the ANR MELAMIN» (P2N 2011) project.
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Condutividade de películas finas de PEDOT:PSS. / On the conductivity of PEDOT:PSS thin films.Nardes, Alexandre Mantovani 18 December 2007 (has links)
As interessantes propriedades eletrônicas, mecânicas e óticas dos materiais orgânicos conjugados fizeram emergir diversas aplicações tecnológicas e comerciais em dispositivos baseados nesses materiais, tais como sensores, memórias, células solares e diodos emissores de luz poliméricos (LEDs). Neste sentido, o tema central desta tese é o estudo das propriedades elétricas e morfológicas e os mecanismos de transporte eletrônico de cargas no PEDOT:PSS, uma blenda polimérica que consiste de um policátion condutivo, o poli(3,4- etilenodioxitiofeno) (PEDOT) e do poliânion poli(estirenosulfonado) (PSS). PEDOT:PSS é amplamente usado como material de eletrodo em aplicações na área de eletrônica plástica, como mencionado anteriormente. Apesar da condutividade elétrica dos filmes finos de PEDOT:PSS possa variar várias ordens de grandeza, dependendo do método pela qual é processado e transformado em filme fino, as razões para este comportamento é essencialmente desconhecido. Esta tese descreve um estudo detalhado do transporte eletrônico de cargas anisotrópico e sua correlação com a morfologia, as condições e as dimensões da separação de fase entre os dois materiais, PEDOT e PSS. Antes de abordar as propriedades do PEDOT:PSS, uma camada de filme fino inorgânica usada para aumentar o tempo de vida de dispositivos orgânicos é descrita no Capítulo 2. Um importante mecanismo de degradação em LEDs poliméricos é a fotooxidação da camada ativa. Assim, isolar a camada ativa da água, oxigênio e luz, torna-se crucial para o aumento do tempo de vida. Um sistema de deposição química a partir da fase de vapor estimulada por plasma (PECVD) é usado para depositar filmes finos de nitreto de carbono em baixas temperaturas, menores que 100 °C, sobre PLEDs com a intenção de aumentar o tempo de vida destes dipositivos e diminuir a fotodegradação do poli[2-metoxi-5- (2-etil-hexiloxi)-p-fenileno vinileno] (MEH-PPV) em ambiente atmosférico. O filme fino de nitreto de carbono possui as características de um material que pode bloquear a umidade e que tem espessura e flexibilidade adequados para a nova geração de PLEDs flexíveis. As características dos filmes finos de nitreto de carbono e MEH-PPV foram investigadas usando-se técnicas de espectroscopia ótica, com particular ênfase no processo de degradação do MEHPPV sob iluminação. Os resultados mostraram que o filme fino de nitreto de carbono protege o filme polimérico e diminui consideravelmente a fotooxidação. Para avaliar o efeito do encapsulamento em dispositivos reais, LEDs poliméricos foram fabricados e pelas curvas de corrente-tensão um aumento no tempo de vida é confirmado quando a camada de nitreto de carbono é presente. O tempo de vida desejado, maior que 10.000 horas, para aplicações comerciais não foi atingido, entretanto, o encapsulamento pode ser melhorado otimizando as propriedades da camada de nitreto de carbono e combinando-as com camadas de outros materiais orgânicos e inorgânicos. Os capítulos seguintes deste trabalho aborda os estudos realizados com o PEDOT:PSS, uma vez que é amplamente usado em eletrônica orgânica, mas relativamente tem recebido pouca atenção com respeito ao transporte eletrônico de cargas, bem como sua correlação com a morfologia. No Capítulo 3, experimentos com microscopia de varredura por sonda (SPM, Scanning Probe Microscopy) e medidas de condutividade macroscópica são utilizados para estudar e obter um modelo 3D morfológico completo que explica, qualitativamente, a condutividade anisotrópica observada nos filmes finos de PEDOT:PSS depositados pela técnica de spin coating. Imagens topográficas de microscopia de varredura por tunelamento (STM) e imagens da seção transversal observadas com o microscópio de forca atômica (X-AFM) revelaram que o filme fino polimérico é organizado em camadas horizontais de partículas planas ricas em PEDOT, separadas por lamelas quasi-contínuas de PSS. Na direção vertical, lamelas horizontais do isolante PSS reduzem a condutividade e impõe o transporte eletrônico a ser realizado por saltos em sítios vizinhos próximos (nn-H, nearest-neighbor hopping) nas lamellas de PSS. Na direção lateral, o transporte eletrônico via saltos 3D em sítios a longas distâncias (3D-VRH, variable range hopping) ocorre entre as ilhas ricas em PEDOT que são separadas por barreiras muito mais finas de PSS, causando um aumento da condutividade nesta direção. Esta discussão é estendida ao Capítulo 4 com uma descrição quantitativa do transporte eletrônico de cargas predominantes. Particularmente, é demonstrado que o transporte de cargas via saltos 3D em sítios a longas distâncias ocorre entre ilhas ricas em PEDOT e não entre segmentos isolados de PEDOT ou dopantes na direção lateral, enquanto que na direção vertical o transporte de cargas via saltos em sítios vizinhos próximos ocorre dentro das lamelas do quasi-isolante PSS. Em algumas aplicações, faz-se necessário usar PEDOT:PSS com alta condutividade elétrica. Isso pode ser feito adicionando-se sorbitol à solução aquosa de PEDOT:PSS. Após um tratamento térmico, e dependendo da quantidade de sorbitol adicionado, a condutividade aumenta várias ordens de grandeza e as causas e consequências de tal comportamento foram investigadas neste trabalho. O Capítulo 5 investiga as várias propriedades tecnológicas do PEDOT:PSS altamente condutivo tratado com sorbitol, tais como a própria condutividade, os efeitos dos tratamentos térmicos e exposição à umidade. É observado que o aumento da condutividade elétrica, devido à adição de sorbitol na solução aquosa, é acompanhado por uma melhoria na estabilidade da condutividade elétrica em condições atmosféricas. Surpreendentemente, a condutividade elétrica do PEDOT:PSS, sem tratamento com sorbitol (~ 10-3 S/cm), aumenta mais de uma ordem de grandeza sob ambiente úmido de 30-35 % umidade relativa. Este efeito é atribuido a uma contribuição iônica à condutividade total. Análise Temogravimetrica (TGA), espectrometria de massa com sonda de inserção direta (DIP-MS) e análise calorimétrica diferencialmodulada (MDSC) foram usadas como técnicas adicionais para o entendimento dos estudos deste Capítulo. No Capítulo 6, microscopia de varredura por sonda-Kelvin (SKPM) foi empregada para medir o potencial de superfície dos filmes finos de PEDOT:PSS tratados com diferentes concentrações de sorbitol. Mostra-se que a mudança no potencial de superfície é consistente com uma redução de PSS na superfície do filme fino. Para estudar o transporte eletrônico nos filmes finos de PEDOT:PSS altamente condutivos tratados com sorbitol, o Capítulo 7 usa medidas de temperatura e campo elétrico em função da conduvitidade correlacionados com analises morfológicas realizadas por STM. É observado que o transporte eletrônico por saltos, na direção lateral, muda de 3D-VRH para 1D-VRH quando o PEDOT:PSS é tratado com sorbitol. Esta transição é explicada por uma auto-organização das ilhas ricas em PEDOT em agregados 1D, devido ao tratamento com sorbitol, tornando-se alinhadas em domínios micrométricos, como observado pelas imagens de STM. / Employing the unique mechanical, electronic, and optical properties of the conjugated organic and polymer materials several technological and commercial applications have been developed, such as sensors, memories, solar cells and light-emitting diodes (LEDs). In this respect, the central theme of this thesis is the electrical conductivity and mechanisms of charge transport in PEDOT:PSS, a polymer blend that consists of a conducting poly(3,4-ethylenedioxythiophene) polycation (PEDOT) and a poly(styrenesulfonate) polyanion (PSS). PEDOT:PSS is omnipresent as electrode material in plastic electronics applications mentioned above. Although the conductivity of PEDOT:PSS can vary by several orders of magnitude, depending on the method by which it is processed into a thin film, the reason for this behavior is essentially unknown. This thesis describes a detailed study of the anisotropic charge transport of PEDOT:PSS and its correlation with the morphology, the shape, and the dimension of the phase separation between the two components, PEDOT and PSS. Before addressing the properties of PEDOT:PSS, a new barrier layer is described in Chapter 2 that enhances the lifetime of organic devices. An important degradation mechanism in polymer LEDs is photo-oxidation of the active layer. Hence, isolating the active layer from water and oxygen is crucial to the lifetime. Plasma-enhanced chemical vapor deposition (PECVD) is used to deposit a thin layer of carbon nitride at low deposition temperatures, below 100 °C, on a polymer LED that uses poly[2-methoxy-5-(2´-ethylhexyloxy)-1,4- phenylene vinylene] (MEH-PPV) as active layer. A thin layer of carbon nitride acts as barrier for humidity, but is still sufficiently bendable to be used in flexible polymer LEDs. The characteristics of carbon nitride and MEH-PPV films have been investigated using optical spectroscopy, with particular emphasis on the degradation process of MEH-PPV under illumination. The measurements show that the carbon nitride coating indeed protects the polymer film and diminishes the photo-oxidation considerably. To study the effect of the encapsulation in real devices, polymer LEDs were made and their current-voltage characteristics confirm the enhanced lifetime in the presence of a carbon nitride barrier layer. However, the target, a lifetime of more than 10,000 hours for commercial applications, was not achieved. The remaining chapters of this thesis describe the investigations of PEDOT:PSS. PEDOT:PSS is widely used in organic electronics. So far, relatively little attention has, been paid to the mechanisms of charge transport in this material and the correlation of those properties to the morphology. In Chapter 3, scanning probe microscopy (SPM) and macroscopic conductivity measurements are used to obtain a full 3D morphological model that explains, qualitatively, the observed anisotropic conductivity of spin coated PEDOT:PSS thin films. Topographic scanning probe microscopy (STM) and cross-sectional atomic force microscopy images (X-AFM) reveal that the thin film is organized in horizontal layers of flattened PEDOT-rich particles that are separated by quasi-continuous PSS lamella. In the vertical direction, the horizontal PSS insulator lamellas lead to a reduced conductivity and impose nearest-neighbor hopping (nn-H) transport. In the lateral direction, 3D variable-range hopping (3D-VRH) transport takes place between PEDOT-rich clusters which are separated by much thinner barriers, leading to an enhanced conductivity in this direction. This discussion is extended in Chapter 4, where a quantitative description of the length scales of the predominant transport is obtained. Particularly, it is demonstrated that the hopping process takes place between PEDOT-rich islands and not between single PEDOT segments or dopants in the lateral direction, whilst in the vertical direction the current limiting hopping transport occurs between dilute states inside the quasi-insulating PSS lamellas. By a post-treatment it is possible to modify PEDOT:PSS to raise its conductivity, by orders of magnitude. Typically, the addition of sorbitol to the aqueous dispersion of PEDOT:PSS that is used to deposit thin films via spin coating leads to an enhancement of the conductivity after thermal annealing. The causes and consequences of such behavior were investigated in detail. Chapter 5 describes the various properties of the highly conductive sorbitol-treated PEDOT:PSS, such as the conductivity itself, and the effects of thermal annealing and exposure to moisture. It is found that the conductivity enhancement upon addition of sorbitol is accompanied by a better environmental stability. Surprisingly, the electrical conductivity of PEDOT:PSS thin films without sorbitol treatment is increased by more than one order of magnitude in an environment with more than 30-35 % relative humidity. This effect is attributed to an ionic contribution to the overall conductivity. Thermal gravimetric analysis (TGA), direct insert probe-mass spectrometry (DIP-MS) and modulation differential scanning calorimetry (MDSC) were used as additional tools to demonstrate that, after thermal treatment, the concentration of sorbitol in the final PEDOT:PSS layer is negligibly small. In Chapter 6, scanning Kelvin probe microscopy (SKPM) is employed to measure the surface potential and work function of this PEDOT:PSS films that were deposited from water with different sorbitol concentrations. It is shown that work function of PEDOT:PSS is reduced with increasing sorbitol concentration. This shift can be explained by and is in agreement with- a reduction in the surface enrichment with PSS of the film. To study the charge transport properties of the highly conductive sorbitoltreated PEDOT:PSS films, temperature dependent and electric field dependent measurements are correlated with morphological analysis by STM in Chapter 7. It is found that by sorbitol treatment the hopping transport changes from 3DVRH to 1D-VRH. This transition is explained by a sorbitol-induced selforganization of the PEDOT-rich grains into 1D aggregates that are aligned within micrometer sized domains, as observed in STM images.
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Anisotropia de resistividade elétrica em filmes finos nanoestruturados. / Electrical resistivity anisotropy in nanostructured thin films.Teixeira, Fernanda de Sá 18 May 2007 (has links)
O objetivo principal deste trabalho foi desenvolver um dispositivo de filme fino com anisotropia de resistividade elétrica. A idéia foi usar um efeito quântico presente em filmes muito finos de materiais condutores ou semicondutores com morfologia anisotrópica na superfície. A morfologia foi um perfil unidirecional quase-senoidal. As resistividades foram determinadas medindo-se as resistências elétricas destes materiais em direções ortogonais, levando-se em conta a geometria da amostra e suas dimensões. O material condutor usado foi Polimetilmetacrilato (PMMA) com ouro implantado na superfície. A profundidade média de implantação foi 2,7 nm. Na fabricação do dispositivo foi utilizada micro e nanolitografia, caracterização por Microscopia Eletrônica de Varredura e Microscopia de Força Atômica e implantação de ouro por MePIIID (Metal Plasma Immersion Ion Implantation and Deposition). / The main purpose of this work was to develop a thin film device with electrical anisotropic resistivity. The idea was to use a quantum effect which is present in very thin films of conductor or semiconductor materials with anisotropic morphology on the surface. The morphology was a sinusoidal-like unidirectional profile. The resistivities were determined measuring the electrical resistances of theses materials in orthogonal directions, taking in account the sample geometry and dimensions. The conductive material used was Polymethylmethacrylate (PMMA) with gold implanted on the surface. The average implanted depth was 2.7 nm. In the device fabrication were used micro and nanolithography, characterization by Scanning Electron Microscopy and Atomic Force Microscopy and gold implantation by MePIIID (Metal Plasma Immersion Ion Implantation and Deposition).
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Química da parte úmida em processo de fabricação de papel - interações em interfaces sólido-líquido. / Wet end chemistry in papermaking - interactions in solid-liquid interfaces.Silva, Deusanilde de Jesus 02 March 2010 (has links)
Um polieletrólito catiônico (poliamina), com baixo peso molecular e elevada densidade de carga, normalmente aplicado como agente coagulante do lixo aniônico, foi usado para estudos de retenção e drenagem na fabricação de papel. O uso do carboximentil celulose de sódio para simulação do teor de lixo aniônico e seu efeito na retenção de cargas minerais foi uma característica importante para este trabalho. Pode ser observado que o aumento da dosagem do polímero catiônico tanto melhora a retenção de cargas minerais, avaliada pela turbidez do filtrado, quanto melhora a drenagem do sistema, avaliada pela velocidade de escoamento. Entretanto, elevadas dosagens deste polímero comprometeram os resultados destes parâmetros devido à inversão de carga do sistema. Pode também ser confirmado que forças de cisalhamento excessivas prejudicam a retenção de cargas minerais. Ademais, um polianfótero, com peso molecular e densidade de carga elevados, contendo grupos positivo (N-[3-(N,N-dimetilamino)propil]acrilamida), negativo (ácido metileno butanodióico) e nulo (acrilamida) na mesma cadeia, foi testado como agente de resistência a seco do papel. Todos os estudos em nível molecular sobre o comportamento do polianfótero em solução e o seu comportamento de adsorção sobre superfícies modelos carregadas, em diferentes condições de pH e de força iônica, foram importantes para explicar tanto dos fenômenos de adsorção, envolvendo fibras celulósicas e polianfótero, quanto o seu efeito na resistência mecânica do papel. Foi observado que a solubilidade do polímero aumenta à medida que o pH se distancia do seu ponto isoelétrico, pHPIE 7,3, e reduz para valores de pH próximos ao pHPIE. O tamanho das estruturas do polianfótero depende do pH do meio de dispersão. As características de tamanho do polianfótero tanto sob a forma de cadeias individuais ou quanto sob a forma de agregados, foram medidas através da técnica de espalhamento dinâmico de luz. As propriedades viscoelásticas das camadas adsorvidas e a quantidade de polímero adsorvida foram medidas através da técnica da balança microgravimétrica com dissipação de energia. Estas duas determinações, associadas às imagens no microscópio de força atômica, foram importantes para o entendimento dos resultados práticos do uso do polianfótero como agente de resistência a seco do papel. Maiores resultados de resistência do papel, avaliada através da resistência à tração, foram alcançados para valores de pH próximos ao ponto isoelétrico onde foram encontrados o seguinte: (1) maiores tamanhos para as estruturas do polímero em solução, (2) maior quantidade de massa nas camadas adsorvidas e (3) a formação de camadas mais viscoelásticas. O fenômeno de separação de fases, associado à mudança da solubilidade do polímero em solução devido ao balanço dos grupos positivos e negativos ionizados ao longo da faixa de pH estudada, foi considerado o principal aspecto para a variação em tamanho dos agregados. Embora este polímero tenha apresentado comportamento antipolieletrólito devido à expansão da sua cadeia e ao aumento da densidade de carga com o aumento da força iônica, considerando o efeito da força iônica para pH 4,3, o comportamento de adsorção do polianfótero foi avaliado como o comportamento de um polieletrólito monocarregado de alta densidade de carga. Maiores e menores quantidades de massas adsorvidas foram encontradas para valores intermediários e extremos de força iônica, respectivamente. As interações eletrostáticas foram consideradas as principais responsáveis pela adsorção do polímero sobre superfícies carregadas. Entretanto, a blindagem de cargas foi considerada a explicação para os baixos valores de massa adsorvida para valores mais elevados de força iônica. / A cationic polyelectrolyte (polyamine), with low molecular weight and high charge density, usually applied as anionic trash coagulant, was used for the retention and drainage studies in the papermaking. The use of sodium carboxymethyl cellulose to simulate the anionic trash content and its effect on the filler retention was an important feature of the work. It could be noted that the increasing of the cationic polymer dosage improves both the filler retention, evaluated by the turbidity of the filtrate, and the system drainage, evaluated by the flow speed. However, high dosages of this polymer compromised the results of these parameters due to the reversal of the system charge. It can also be confirmed that excessive shear forces affect the filler retention. Furthermore, a polyampholyte, with high molecular weight and charge density, containing positive (N-[3-(N,N- dimethylamino)propyl]acrylamide), negative (methylene butanedioic acid), and neutral (acrylamide) groups in the same chain, was tested as a dry strength agent. All of the studies at molecular level concerning to the polyampholyte behavior in the solution and its adsorption behavior on charged model surfaces at different conditions of pH and ionic strength, were important to explain both the adsorption phenomena, involving cellulosic fibers and polyampholyte, and its impact on the paper strength. It was observed that the polymer solubility increases as the pH moves away from its isoelectric point, pHIEP 7.3, and decreases when the pH approaches close to pHIEP. The sizes of the structures of the polyampholytes depend on the pH of the dispersion medium. Also the size characteristics of polyampholyte, both in individual and aggregated forms, were measured by dynamic light scattering technique. The viscoelastic properties of adsorbed layers, as well as the amount of the adsorbed polymer, were measured by quartz crystal microbalance technique with energy dissipation. These two measurements, associated with the atomic force microscopy images, were important to understand the practical results of polyampholyte usage as a dry strength agent. Best results of paper strength, evaluated by paper strength index, were achieved at pH close to the isoelectric point on which one were found the following features: (1) larger sizes of the polymer structures in solution, (2) higher amount of mass in the adsorbed layers, and (3) the formation of more viscoelastic layers. The phase separation phenomenon, associated with the change in the solubility of the polymer due to the balance of the positive and negative groups throughout the studied pH range, was considered the main aspect for the variation in size of the aggregates. Although this polymer shows antipolyelectrolyte behavior due to the expansion of the its chain and the increasing in charge density with the ionic strength, considering the effect of ionic strength at pH 4.3, the adsorption behavior of polyampholyte was evaluated as a monocharged polyelectrolyte behavior with high charge density. Major and minor amounts of adsorbed masses were found for intermediates and extremes values of ionic strength, respectively. The electrostatic interactions were considered the main cause of the adsorption on charged surfaces. However, the electrostatic screening was considered the explanation for the low values of adsorbed mass at higher values of ionic strength.
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Charakterisierung des Relaxationsverhaltens von Si 1-x Ge x /Si(001) Schichten mittels RöntgentopographiePfeiffer, Jens-Uwe 14 December 2001 (has links)
Die Herstellung von verspannten Schichten mittels Heteroepitaxie gewinnt in der aktuellen Festkörperphysik zunehmend an Bedeutung, insbesondere wenn es gelingt, Schichten mit unterschiedlichen Gitterparametern in hoher kristalliner Perfektion, wie sie für die Herstellung elektronischer Bauelemente notwendig ist, aufeinander abzuscheiden. Der Einsatz verspannter Schichtsysteme erlaubt es, bestimmte Materialeigenschaften, wie die Ladungsträgerbeweglichkeiten und den Bandabstand, gezielt zu beeinflussen. Im Rahmen der vorliegenden Arbeit wurde die frühe Phase der Relaxation von dünnen verspannten metastabilen Silizium-Germanium-Mischkristallschichten auf (001)-Siliziumsubstrat untersucht. Derartige metastabile Schichten bilden bei Temperaturbehandlung sogenannte Fehlanpassungsversetzungen aus. Die Ausbildung dieser Versetzungen in makroskopischer Ausdehnung in nahezu perfekt kristallinen Materialien setzt einen Nukleationsvorgang und die Ausbreitung durch Gleiten bzw. Klettern voraus. Diese Vorgänge wurden am o.g. Materialsystem systematisch untersucht. Die Untersuchung außerordentlich geringer Versetzungsdichten erfolgte mittels in-situ und ex-situ Röntgentopographie sowie ergänzender Messungen mittels hochauflösender Röntgendiffraktometrie. Die Plane-view-Transmissionselektronenmikroskopie sowie Atomkraftmikroskopie ergänzten die Experimente auf der damit möglichen Längenskala insbesondere für die Beurteilung des Verhaltens von sich kreuzenden Versetzungen. Es wurden Versetzungsgleitgeschwindigkeiten in Abhängigkeit von verschiedenen Fremdstoffkonzentrationen und Epitaxieverfahren gemessen. Ein signifikante Einfluß dieser Verfahren auf die Gleitgeschwindigkeit konnte nicht nachgewiesen werden, jedoch veringert der Sauerstoffgehalt einiger Proben die Versetzungsgleitgeschwindigkeit. Eine Kohlenstoffdotierung von 0,1% führt bei Einbau auf Gitterplätzen zu keinem messbaren Einfluß auf die Ausbreitungsgeschwindigkeit von Fehlanpassungsversetzungen. Der Prozess der Nukleation von Versetzungen wurde durch die heterogene Nukleation an Einzeldefekten, deren Vorhandensein stark vom Epitaxieverfahren abhängt, dominiert. Dies wurde an einer Vielzahl von Proben verifiziert. Die Aktivität der einzelnen Nukleationszentren ist sehr unterschiedlich und lässt sich nur durch ein "Spektrum" von Nukleationszentren unterschiedlicher "Stärke" erklären. Starke Nukleationszentren können bis ca 100 Versetzungen, die zusammen Versetzungsbündel bilden, induzieren. Die Nukleationszentren werden sequentiell aktiviert. Es wurde gezeigt, dass Laserbeschuss schwache Zentren "aktiviert" und eine damit eine sehr gleichmäßige Relaxation von Schichten möglich wird. Durch in-situ-Beobachtungen konnte erstmals röntgentopografisch der Prozess des Versetzungsblockierens und des Quergleitens an sich kreuzenden Versetzungsbündeln über einen großen Skalenbereich verfolgt werden.Es konnte gezeigt werden, dass die Zweikristall-Röntgentopografie ein geeignetes Verfahren zur Untersuchung großer teilrelaxierter Proben mit extrem geringem Relaxationsgrad darstellt. / The deposition of metastable layers by means of heteroepitaxy is gaining more and more in importance in current solid state physics, especially if it is possible to deposit layers with rather different lattice parameters in perfect quality, necessary for the fabrication of electronic devices and semiconductor technology. The use of such layer systems enables to controlling specific material properties, for example the mobility of charge carriers and the energy gap. Within the framework of this work the early stages of the relaxation of very thin strained silicon-germanium layers deposited onto (001)silicon substrates were investigated. Such metastable layers create so-called misfit dislocations at annealing. The formation of dislocations in nearly perfect materials as silicon in macroscopic extension presumes a nucleation process and the propagation by means of gliding and/or climbing of the threading segments. These processes were investigated systematically at silicon-germanium-films on silicon substrates as a modelsystem. Very low densities of dislocations were investigated by in-situ and ex-situ X-ray topography as well as high resolution X-ray diffractometry. Plane-view transmission electron microscopy and atomic force microscopy complemented the experiments in order to study the behavior at the dislocation crossings at smaller length scale. Dislocation glide rates were measured at different concentrations of impurities (e.g. carbon) in the sample and for different growth techniques. There was no significant influence of the epitaxial method on the glide velocities but a very low amount of oxygen decreases the the velocity effectively. A low density of carbon (0,1%) wich occcupy silicon or germanium lattice sites had no significant influence on the propagation of dislocations. The process of nucleation is dominated by heterogeneous nucleation as was verified at a large number of samples and varies in detail for different epitaxial depostion methods. The activity of single nucleation centers is rather different and can interpreted with a "spectrum" of centers of different strength. A strong center can induce as many as 100 dislocations. These dislocations form bunches of dislocations as was observed with X-ray topography. The centers are sequentially activated. This was demonstrated at samples where a pretreatment with an excimer laser "activated" weak centers thereby inducing a comparatively homogeneous distribution of dislocations. By means of in-situ synchrotron radiation experiments the prozesses of propagation, blocking and crossslip could be observed for the first time in large areas of samples. The double crystal X-ray topography is a suitable method to observe these processes in comparatively large samples with a very low degree of relaxation.
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Strukturelle und elektronische Eigenschaften von Nanographen-Graphen-Systemen sowie Schnitt- und Faltverhalten von GraphenEilers, Stefan 11 April 2013 (has links)
Im ersten Teil der Arbeit werden Graphen sowie von Monolagen von auf Nanometer großen Graphenen basierenden Hexa-peri(Dodekyl)-Hexabenzocoronen-Molekülen (HBC-C12), adsorbiert auf Graphen, mit Rastertunnelmikroskopie und –spektroskopie an der Fest-Flüssig-Grenzfläche untersucht. Nanographen-Moleküle selbstaggregieren epitaktisch zu hochgeordneten Monolagen. Die Einheitszellen der Moleküllagen auf Monolage Graphen, Bilage Graphen und auf Graphit sind ununterscheidbar. Die Strukturen der Moleküllagen auf gewellten und flachen Teilen des Graphens stimmen überein. Strom-Spannungs-Kennlinien an Nanographen auf Graphen und auf Graphit weisen auf sehr ähnliche elektronische Eigenschaften hin. Zusammengefasst sind strukturelle sowie elektronische Eigenschaften der Nanographenlage homogen, stabil und definiert. Graphen erweist sich als bestens als Substrat und gleichzeitig als Elektrode für hochgeordnete Lagen von Nanographen-Molekülen geeignet. Im zweiten Teil der Arbeit wird Graphen mit der Sonde eines Rasterkraftmikroskops im Kontaktmodus mechanisch manipuliert. Es wird gezeigt, dass Graphen in nur einem Manipulationsschritt zu Streifen und Spalt geschnitten werden kann. Dieses Verhalten wird mit einem klassischen Modell des Biegens theoretisch erklärt. Das Schnittverhalten liegt in der 2-Dimensionalität des Graphens sowie in dessen Faltbarkeit auf Grund hinreichender Elastizität begründet. Durch mechanische Manipulation mit der Sonde des Rasterkraftmikroskops im Kontaktmodus unter atmosphärischen Bedingungen wird eine Flüssigkeitsschicht zwischen Graphen und dem Siliziumdioxidsubstrat nachgewiesen, welche eine mögliche Erklärung des stark kraftabhängigen Materialkontrasts zwischen Graphen und Siliziumdioxid im Amplitudenmodulationsmodus des Rasterkraftmikroskops darstellt. Weiter wird gezeigt, dass das Falten des Graphens durch mechanische Manipulation eine geeignete Methode zur Herstellung nicht epitaktisch aufeinander gestapelter Graphene darstellt. / In the first part of the thesis graphene as well as monolayers of hexa-peri(dodecyl)-hexabenzocoronene molecules (HBC-C12) based on nanometer sized graphenes adsorbed on graphene is investigated by scanning tunnelling microscopy and tunneling spectroscopy at the solid-liquid interface. The nanographene molecules self-assemble on graphene epitaxially to form highly ordered monolayers. The unit cells of the molecular layers on monolayer graphene, bilayer graphene and on graphite appear identical. The structures of the molecular layers occur equal on corrugated and on flat parts of graphene. Current-voltage-characteristics show that the electronic properties of nanographene on graphene and on graphite are very similar. Summarized, structural as well as electronic properties of the nanographene layer are homogeneous, stable and defined. Graphene proves to be excellently qualified for simultaneously being substrate as well as electrode for highly ordered layers of nanographene based molecules. In the second part of the thesis graphene is mechanically manipulated in air in contact mode of a scanning force microscope. It is shown that a single manipulation process can lead to a stripe cut out of graphene. This behaviour is theoretically explained by a classical bending model. The cutting behavior originates from the 2-dimensionality of graphene and its folding ability because of sufficient elasticity. A liquid layer between graphene and the silicon dioxide substrate is verified by mechanical manipulation in contact mode of a scanning force microscope. Hence a possible explanation could be found for the strongly force dependent material contrast between graphene and silicon dioxide in amplitude modulation mode of the scanning force microscope. Further, it is demonstrated that folding graphene by mechanical manipulation is a proper method for the production of graphene stacked on each other non-epitaxially.
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Etablierung der Rasterkraftmikroskopie an kardiovaskulär relevanten Zellen, Proteinen und MaterialienRichter, Christoph 20 October 2003 (has links)
1981 entwickelten Gerd Binnig und Heinrich Rohrer bei IBM in Zürich das "Scanning Tunneling Microscope". Damit wurde erstmalig das lokal hochaufgelöste Erfassen (bis in den atomaren Auflösungsbereich) von Objekteigenschaften im Nahfeld inerter Oberflächen möglich. Dies und insbesondere die Weiterentwicklung der Technologie und die spätere (1986) Etablierung der Rasterkraftmikroskopie (Atomic Force Microscopy - AFM), die diese Auflösungsmöglichkeiten der Rastersondenmikroskope auch an Non-Konduktoren (nicht leitende Untersuchungsoberflächen) realisieren konnte, stellte die Geburtsstunde einer neuen mikroskopischen Ära auf dem Gebiet der biomedizinischen Grundlagenforschung dar (Kapitel 1.3). Das Studium der umfangreichen Literaturquellen zu diesem Thema und der direkte wissenschaftliche Kontakt und Erfahrungsaustausch mit anderen AFM- Arbeitsgruppen ließen im Initialstadium dieser vorliegenden Arbeit bereits erkennen, dass in der kardiovaskulären Grundlagenforschung zunehmend rasterkraftmikroskopische Versuchsansätze bearbeitet und kardiologisch interessante Fragestellungen mittels dieser Methode begleitend untersucht wurden (Kapitel 1.4). Das Ziel dieser vorliegenden Arbeit bestand darin, kardiovaskulär relevante Zellen und Einzelproteine in vivo und interventionelle Materialien (Stents) rasterkraftmikroskopisch zu untersuchen, wobei die Etablierung und technisch aufwendige Optimierung dieser neuen mikroskopischen (Kapitel 3.1) und der zellspezifisch präparatorischen Methoden (Kapitel 3.2) an diesen Untersuchungsobjekten im Mittelpunkt stehen sollte. Die im Rahmen dieser Arbeit untersuchten endothelialen Zellen und H9C2-Myozyten stammten aus, in unserem Forschungslabor etablierten, immortalen Kulturzelllinien. Die adulten und Kardiomyozyten neonataler Ratten, die kardial- fibrozytären Zellen sowie die Thrombozyten wurden primär isoliert und als Primärkulturzellen kultiviert (Kapitel 3.2.3 und 3.2.4). Außerdem wurden vitale aortale Endothelzellen unterschiedlicher Tiere (Ratte, Meerschwein, Kaninchen) im Gewebsverband der thorakalen Aorta untersucht (Kapitel 4.2). Die Zellen wurden initial, im Rahmen der Etablierungsphase mittels unterschiedlicher Methoden fixiert und nachfolgend rasterkraftmikroskopisch untersucht und dargestellt. Der Etablierungsprozess der Methodik begann mit der Abbildung luftgetrockneter Zellen (Kapitel 4.1.1) unter Raumbedingungen und setzte sich über verschiedene Modifikationen der Zellpräparation (z.B. Glutardialdehydfixation, Cryofixation), des Abbildungsmodus (Contact-, Non-Contact-, Tapping-Mode) und der Abbildungsbedingungen (Raumbedingungen, zellphysiologische Umgebung) fort, so dass schließlich die Abbildung vitaler Zellen (Kapitel 4.1.2 und Kapitel 4.2 - 4.5) in ihrer strukturellen und funktionellen Umgebung (z.B. aortale Endothelzellen im Gewebsverband) etabliert werden konnte und routinemäßig reproduzierbar war. An stabilen oder künstlich stabilisierten Strukturen der o.g. vitalen Zellen wurden erste orientierende Messungen der bioelastischen Eigenschaften (Kraft-Abstands-Kurven, Kapitel 4.1.2.1) durchgeführt. Außerdem haben wir im Einzelfall, wenn technisch und apparativ möglich, andere hochauflösende strukturanalytische Verfahren (z.B. TEM) als mikroskopische Referenzuntersuchungen herangezogen (Kapitel 4.1.2; 4.4.1; 4.6), wobei z.T. erstaunliche Übereinstimmung zwischen den AFM- Daten und den strukturanalytischen Daten der Referenzmethoden nachweisbar waren. Ein strukturell durch Elektronenmikroskopie und Röntgendiffraktionsanalyse sehr gut beschriebenes komplexes Funktionsprotein, das 20-S-Proteasom, wurde mittels der Rasterkraftmikroskopie abgebildet und vermessen und die so gewonnenen strukturanalytischen Daten mit den bekannten strukturellen Abmessungen des Proteins verglichen (Kapitel 4.6). Die hierbei detektierten dimensionalen Abweichungen zwischen den AFM- assoziierten Daten und den bekannten strukturanalytischen Daten der Elektronenmikroskopie wurden im Kontext der funktionellen Integrität des Proteins und hinsichtlich möglicher methodischer Fehlereinflüsse (Kapitel 3.1.4.3) diskutiert. Interventionelle Materialien (Stents), die in der täglichen kardiologischen Praxis Anwendung finden, sind hinsichtlich ihrer Ultrastruktur mittels dieser hochsensitiven Abbildungsmethode im Nahfeld von Objektoberflächen untersucht worden. Bezüglich ihrer nativen Oberflächenbeschaffenheit und ihrer mechanischen Alteration durch den Ballon- Dilatationsprozess wurden die Stents sehr detailliert qualitativ und quantitativ (Kapitel 4.7) beschrieben, wobei Prädilektionsstellen der prozedural- assoziierten mechanischen Beanspruchung der Stents durch die hier beschriebene, oberflächensensitive AFM- Methode sehr genau diskriminiert werden konnten. Die präparierten Stents wurden weiterführend mit humanen Thrombozytenkonzentraten inkubiert und die Zell- Stentoberflächenkontakte sowie mögliche Stentoberflächen- induzierte Veränderungen der Thrombozyten sind morphologisch ausführlich beschrieben worden. Letztendlich wurde im Rahmen der vorliegenden Arbeit die spezifische Aktivierung der vitalen Thrombozyten durch pharmakologische Stimulantien (z.B. ADP) mit der, durch den AFM-Abbildungsprozess induzierten Thrombozytenaktivierung (Kapitel 4.5) unter AFM-Bedingungen verglichen und diskutiert. Die Ergebnisse dieser Arbeit weisen, dass mit der AFM-Technologie und objektorientiert optimierten Mess- und Präparationsmethoden ein neues mikroskopisches Analyseverfahren vorliegt, dass zum einen real-dreidimensionale morphologische Bildgebung bis in den submolekularen Auflösungsbereich an vitalen Zellen und präparierten Proteinkomplexen, zum anderen aber gleichermaßen Funktionsanalytik in Form von Messungen zelldynamischer Prozesse wie Migrationsbewegungen und Kontraktionen sowie visko- elastische Quantifizierung von Zellmembranen erlaubt. Der Vorteil gegenüber den meisten gegenwärtig verfügbaren mikroskopischen Methoden liegt in der neu eröffneten Möglichkeit der seriellen, wiederholten und stabil reproduzierbaren Messung an vitalen Zellen und zellulären Substrukturen. Insofern könnte in Zukunft diese neue Technologie eine methodische Bereicherung der mikroskopisch-morphologisch und funktionell orientierten Analysetechnik darstellen. / In 1981 Binnig and Rohrer invented the "Scanning Tunneling Microscope". Thereby it became feasible to high-resolution record the surface-properties of specimens (up to atomic resolution) at the nearfield of inert surfaces. This and in detail the further development of this technology and the establishment of "Atomic Force Microscopy" (1986), that allows implementation of this resolution capabilities in non-conductors or insulating materials represent the birth of a new microscopic era in the field of biomedical basic research (chapter 1.3). The promise of atomic (scanning) force microscopy (AFM) for cardiovascular research is enormous. The perusal of the extensive literature concerning this topic and scientific contact with other researchers reveals initial the capabilities of this method in cardiovascular basic research. Intriguing questions of cardiology may investigate concomitantly with help of scanning-force-micoscopic approaches (chapter 1.4). The aim of this study was to investigate relevant cardiovascular cells and single proteins in-vivo and specific materials (coronary artery stents) with scanning-force-micoscopic setup. The establishment and expensive optimization of this new microscopic method (chapter 3.1) and of the cell specific preparatory methods (chapter 3.2) represented the center of interest of our inevestigations. The endothelial cells and H9C2-myocytes stem from established imortal cell culture lines. The adult cardiomyocytes and cardiomyocytes of neonatal rats, the fibrocytes and the thrombocytes were primarily cultivated (chapter 3.2.3 and 3.2.4). In addition we investigated aortic endothelial cells of intact aortic tissue of different animals (rat, guinea pig, rabbit - chapter 4.2). During the establish experiments cells underlied different methods of cell-fixation. The primary investigations was performed using air-dried cells (chapter 4.1.1) analyzed in room ambient conditions and were continued by different modifications of cell-preparation. (e.g. glutardialdehyde-fixation, cryo-fixation), of microscopic mode (contact-, non-contact-, tapping-mode) and of cell-specific environmental conditions (from room ambient to cellphysiological medium and temperature). As result we became enabled to investigate (reproducible and routinely) vital cells (chapter 4.1.2 and chapter 4.2 - 4.5) embedded in physiological normal structural und functional ambient conditions (e.g. endothelial cells of intact aortic tisue in-vivo). Additionally, we performed measurements of bio-elastic properties of stable or artificial stabilized structures of named cells (force-distances-curves - chapter 4.1.2.1). If posibble, depending of available technical equipment, we compared our microscopic results with other high-resolution analytical procedures of reference (e.g. TEM - Kapitel 4.1.2; 4.4.1; 4.6) and detected astonishing congruence between the data. Furthermore we analyzed the well-described (electron-microscopy and x-ray-diffraction data) complex 20-S-proteasome using a specific atomic force microscopic setup. Analytical and structural data of these AFM-scans and abovementioned methods were likened (chapter 4.6). The deviations concerning the detected proportions were discussed regarding functional integrity of the protein and with respect to potential methodically determined artifacts. (chapter 3.1.4.3). Assaying (qualitative and quantitative) the surface roughness properties of coronary artery stents, we found significant alterations of stent material induced by balloondilatation. We suppose, that changes in roughness of inner surface of coronary artery stents might induce clinical problems like acute stent-thrombosis and in-stent-restenosis. Finally these stents were coated with human thromboytes to investigate cell-stent-surface interactions. Surface-roughness correllated triggering of thrombocyte adhesion was evaluated by morphological analysis of AFM-scans. Finishing, we have investigated and concluding discussed the specific activation of vital thrombocytes by pharmacological substances (e.g. ADP) and by mechanical stimulation (due to AFM-associated tip-surface-interaction). The results of this work demonstrate, AFM-technology using optimized microscopic setup and object-specific adjusted measurement- and preparation- methods, is an new, powerful, microscopic technique, that allow real-3-dimensional morphological mapping up to submolecular range of resolution in vital cells and protein complexes. Moreover, this technology opens new dimensions in functional analytic of cell migration processes or cellular contractions and in evaluation of visco-elastic quantification of cell membranes. The advantage owed to the most currently available microscopic methods is the option of serial and reproducible measurement of vital cells and subcellular structures. In this respect, this new method might represent a methodical enrichment of the microscopic-morphological and functional oriented analysis-technique in future.
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