Global ETD Search

31	Förster Resonance Energy Transfer Mediated White-Light-Emitting Rhodamine Fluorophore Derivatives-Gamma Phase Gallium Oxide Nanostructures Chiu, Wan Hang Melanie January 2012 (has links) The global lighting source energy consumption accounts for about 22% of the total electricity generated. New high-efficiency solid-state light sources are needed to reduce the ever increasing demand for energy. Single-phased emitter-based composed of transparent conducting oxides (TCOs) nanocrystals and fluorescent dyes can potentially revolutionize the typical composition of phosphors, the processing technology founded on the binding of dye acceptors on the surface of nanocrystals, and the configurations of the light-emitting diodes (LEDs) and electroluminescence devices. The hybrid white-light-emitting nanomaterial is based on the expanded spectral range of the donor-acceptor pair (DAP) emission originated from the γ-gallium oxide nanocrystals via Förster resonance energy transfer (FRET) to the surface-anchored fluorescent dyes. The emission of the nanocrystals and the sensitized emission of the chromophore act in sync as an internal relaxation upon the excitation of the γ–gallium oxide nanocrystals. It extends the lifetime of the secondary fluorescent dye chromophore and the internal relaxation within this hybrid complex act as a sign for a quasi single chromophore. The model system of white-light-emitting nanostructure system developed based on this technology is the γ–gallium oxide nanocrystals-Rhodamine B lactone (RBL) hybrid complex. The sufficient energy transfer efficiency of 31.51% within this system allowed for the generation of white-light emission with the CIE coordinates of (0.3328, 0.3380) at 5483 K. The relative electronic energy differences of the individual components within the hybrid systems based on theoretical computation suggested that the luminance of the nanocomposite comprised of RBL is dominantly mediated by FRET. The production of white-light-emitting diode (WLED) based on this technology have been demonstrated by solution deposition of the hybrid nanomaterials to the commercially available ultraviolet (UV) LED due to the versatility and chemical compatibility of the developed phosphors. White-light-emitting Light emitting diode Transparent conducting oxides Nanoparticles Quasi single hybrid chromophore Nanolite Gamma-phase gallium oxide Gallium oxide Zinc oxide Rhodamine Fluorophore Förster resonance energy transfer Chemistry
32	Blocage dipolaire de l'excitation d'atomes froids vers<br />des états de Rydberg :<br />Contrôle par champ électrique et par résonance de Förster Vogt, Thibault 07 August 1980 (has links) (PDF) Cette thèse traite des interactions à très longue portée entre atomes de Rydberg froids.<br />Elle présente les résultats de la première réalisation du blocage dipolaire, qui se traduit par<br />une limitation de l'excitation d'un ensemble d'atomes vers un état de Rydberg en raison du<br />déplacement des niveaux d'énergie lié aux interactions dipôle-dipôle entre atomes. L'importance<br />de l'implication du blocage dipolaire a été soulignée pour l'information quantique avec<br />la possible réalisation de portes quantiques conditionnelles à deux qubits. La mise en évidence<br />du blocage dipolaire est présentée dans le cadre de deux configurations expérimentales différentes<br />: en présence d'un champ électrique et à résonance de Förster. Parvenir à la maîtrise du<br />blocage dipolaire de l'excitation vers des états de Rydberg a demandé un contrôle important<br />des conditions expérimentales : compensation des champs parasites, contrôle des sources d'ionisation<br />d'atomes, contrôle de l'intensité laser d'excitation pour se placer en-dessous du seuil<br />de saturation par puissance. Des études complémentaires ont été réalisées, telle que celle des<br />forces dipolaires entre atomes de Rydberg responsables d'un phénomène d'ionisation Penning,<br />aussi à l'origine de la formation d'un plasma ultra-froid. Une autre étude concerne le processus<br />du transfert d'excitation à résonance de Förster, dont les propriétés de cohérence ont été<br />analysés par une technique spectroscopique originale dite de "creusement spectral". Atomes de Rydberg Forces dipolaires Ionisation Penning <br />Blocage dipolaire Information quantique Photoionisation <br />Cohérence Interaction Van der Waals Plasmas froids <br />Collisions froides Interaction dipôle-dipôle Procédé Förster
33	Förster Resonance Energy Transfer Mediated White-Light-Emitting Rhodamine Fluorophore Derivatives-Gamma Phase Gallium Oxide Nanostructures Chiu, Wan Hang Melanie January 2012 (has links) The global lighting source energy consumption accounts for about 22% of the total electricity generated. New high-efficiency solid-state light sources are needed to reduce the ever increasing demand for energy. Single-phased emitter-based composed of transparent conducting oxides (TCOs) nanocrystals and fluorescent dyes can potentially revolutionize the typical composition of phosphors, the processing technology founded on the binding of dye acceptors on the surface of nanocrystals, and the configurations of the light-emitting diodes (LEDs) and electroluminescence devices. The hybrid white-light-emitting nanomaterial is based on the expanded spectral range of the donor-acceptor pair (DAP) emission originated from the γ-gallium oxide nanocrystals via Förster resonance energy transfer (FRET) to the surface-anchored fluorescent dyes. The emission of the nanocrystals and the sensitized emission of the chromophore act in sync as an internal relaxation upon the excitation of the γ–gallium oxide nanocrystals. It extends the lifetime of the secondary fluorescent dye chromophore and the internal relaxation within this hybrid complex act as a sign for a quasi single chromophore. The model system of white-light-emitting nanostructure system developed based on this technology is the γ–gallium oxide nanocrystals-Rhodamine B lactone (RBL) hybrid complex. The sufficient energy transfer efficiency of 31.51% within this system allowed for the generation of white-light emission with the CIE coordinates of (0.3328, 0.3380) at 5483 K. The relative electronic energy differences of the individual components within the hybrid systems based on theoretical computation suggested that the luminance of the nanocomposite comprised of RBL is dominantly mediated by FRET. The production of white-light-emitting diode (WLED) based on this technology have been demonstrated by solution deposition of the hybrid nanomaterials to the commercially available ultraviolet (UV) LED due to the versatility and chemical compatibility of the developed phosphors. White-light-emitting Light emitting diode Transparent conducting oxides Nanoparticles Quasi single hybrid chromophore Nanolite Gamma-phase gallium oxide Gallium oxide Zinc oxide Rhodamine Fluorophore Förster resonance energy transfer Chemistry
34	Entwicklung eines miniaturisierten Fluoreszenzsensors basierend auf molekular geprägten Polymeren / Development of a miniaturized fluorescence sensor based on molecularly imprinted polymers Kunath, Stephanie 03 June 2013 (has links) (PDF) Die vorliegende Arbeit befasst sich mit der Entwicklung von Biosensoren mit dem Ziel, mit Hilfe der Kopplung molekular geprägter Polymere (MIPs) als neuartiges Rezeptormaterial und dem sensitiven Nachweisprinzip der Fluoreszenz eine neue Qualität des Analytnachweises zu erreichen. Es wurde eine neue Strategie zur Optimierung der Bindungseigenschaften von molekular geprägten Polymeren in wässrigen Lösungsmitteln entwickelt, die die Kopplung aus Design of Experiments und der Optimierung multipler Zielgrößen umfasst. Damit konnten die Polymerbindungseigenschaften für alle vier betrachteten Parameter wesentlich verbessert werden. Mit Hilfe stationärer und zeitaufgelöster Fluoreszenztechniken wurde die Aufklärung der Wechselwirkung zwischen MIP und Analyt auf molekularer Ebene sowie die Charakterisierung einer neuen Nachweisstrategie basierend auf einen Förster-Resonanzenergietransfer-Mechanismus realisiert. Es wurde ferner ein MIP-Sensor für biologische Proben mit mikrofluidischer Probenzuführung aufgebaut und mittels Fluoreszenzspektrometer als konventionelles Nachweisverfahren etabliert. Darauf aufbauend wurde der optische Nachweis miniaturisiert und somit miniaturisierte Lichtquellen und Detektoren sowie eine faser-optische Lichtleitung eingesetzt. Davon ausgehend erfolgte die Optimierung des Messaufbaus hinsichtlich der Sensitivität und Nachweisgrenze des fluoreszierenden Analyten. Schließlich wurden erstmalig fluoreszenzmarkierte MIP-Partikel zur Lokalisation und Quantifizierung auf Zelloberflächen eingesetzt, d.h. diese dienten als Antikörperersatz der Immunfärbung. / This thesis deals with the development of biosensors with the aim to couple molecularly imprinted polymers (MIPs) as new receptor material with the sensitive detection principle of fluorescence in order to improve analyte detection. A new strategy for optimization of binding parameters of molecularly imprinted polymers in aqueous media was developed which is based on the coupling of design of experiments and the optimization of multiple objective parameters. Due to that the polymer binding properties for all four considered parameters could be optimized considerably. With the help of steady state and time-resolved fluorescence techniques the interaction between MIP and analyte could be clarified on a molecular basis. Furthermore the characterization of a new detection strategy based on a Förster resonance energy transfer mechanism was realized. Moreover a MIP sensor with microfluidic sample handling for biological samples was built-up and established with fluorescence spectroscopy as conventional detection method. Based on that, the optical detection was miniaturized with respect to light sources, detectors as well as optical fibers for light guidance. This set-up was optimized concerning sensitivity and limit of detection of the fluorescent analyte. Finally, for the first time fluorescently marked MIP particles were applied for imaging on cell surfaces – meaning that they were used for immunostaining as antibody mimics. Molekular geprägte Polymere synthetische Rezeptoren Mikrofluidik Miniaturisierung Faseroptik Design of Experiments statistische Versuchsplanung Multi-Ziel-Optimierung Optimierung multipler Zielgrößen wässrige Umgebung Förster Resonanz Energietransfer Fluoreszenz zeitaufgelöste Fluoreszenzspektroskopie TCSPC Cell Imaging Immunfärbung Antikörperersatz Glucuronsäure molecularly imprinted polymers synthetic receptors biosensor microfluidics miniaturization fiber-optics design of experiments multi-objective optimization aqueous environment Förster resonance energy transfer fluorescence time-resolved fluorescence spectroscopy TCSPC cell imaging immunostaining antibody mimics glucuronic acid ddc:620 rvk:VN 7280
35	Entwicklung eines miniaturisierten Fluoreszenzsensors basierend auf molekular geprägten Polymeren Kunath, Stephanie 18 February 2013 (has links) Die vorliegende Arbeit befasst sich mit der Entwicklung von Biosensoren mit dem Ziel, mit Hilfe der Kopplung molekular geprägter Polymere (MIPs) als neuartiges Rezeptormaterial und dem sensitiven Nachweisprinzip der Fluoreszenz eine neue Qualität des Analytnachweises zu erreichen. Es wurde eine neue Strategie zur Optimierung der Bindungseigenschaften von molekular geprägten Polymeren in wässrigen Lösungsmitteln entwickelt, die die Kopplung aus Design of Experiments und der Optimierung multipler Zielgrößen umfasst. Damit konnten die Polymerbindungseigenschaften für alle vier betrachteten Parameter wesentlich verbessert werden. Mit Hilfe stationärer und zeitaufgelöster Fluoreszenztechniken wurde die Aufklärung der Wechselwirkung zwischen MIP und Analyt auf molekularer Ebene sowie die Charakterisierung einer neuen Nachweisstrategie basierend auf einen Förster-Resonanzenergietransfer-Mechanismus realisiert. Es wurde ferner ein MIP-Sensor für biologische Proben mit mikrofluidischer Probenzuführung aufgebaut und mittels Fluoreszenzspektrometer als konventionelles Nachweisverfahren etabliert. Darauf aufbauend wurde der optische Nachweis miniaturisiert und somit miniaturisierte Lichtquellen und Detektoren sowie eine faser-optische Lichtleitung eingesetzt. Davon ausgehend erfolgte die Optimierung des Messaufbaus hinsichtlich der Sensitivität und Nachweisgrenze des fluoreszierenden Analyten. Schließlich wurden erstmalig fluoreszenzmarkierte MIP-Partikel zur Lokalisation und Quantifizierung auf Zelloberflächen eingesetzt, d.h. diese dienten als Antikörperersatz der Immunfärbung. / This thesis deals with the development of biosensors with the aim to couple molecularly imprinted polymers (MIPs) as new receptor material with the sensitive detection principle of fluorescence in order to improve analyte detection. A new strategy for optimization of binding parameters of molecularly imprinted polymers in aqueous media was developed which is based on the coupling of design of experiments and the optimization of multiple objective parameters. Due to that the polymer binding properties for all four considered parameters could be optimized considerably. With the help of steady state and time-resolved fluorescence techniques the interaction between MIP and analyte could be clarified on a molecular basis. Furthermore the characterization of a new detection strategy based on a Förster resonance energy transfer mechanism was realized. Moreover a MIP sensor with microfluidic sample handling for biological samples was built-up and established with fluorescence spectroscopy as conventional detection method. Based on that, the optical detection was miniaturized with respect to light sources, detectors as well as optical fibers for light guidance. This set-up was optimized concerning sensitivity and limit of detection of the fluorescent analyte. Finally, for the first time fluorescently marked MIP particles were applied for imaging on cell surfaces – meaning that they were used for immunostaining as antibody mimics. info:eu-repo/classification/ddc/620 ddc:620
36	Veranschaulichung subzellulärer physikalischer Kräfte biochemischen und mechanischen Ursprungs mittels FRET / Insights into the spatiotemporal regulation of the cellular cytoskeleton through applications of FRET Mitkovski, Miso 03 November 2005 (has links) No description available. 570 Biowissenschaften, Biologie Mathematics and Computer Science förster resonanz energie transfer FRET biosensor design optischer kraft-biosensor dipol orientation optimierung kraftausübung zelladhesion Rho GTPase fluoreszenz aktivierte zell-sortierung extrazelluläre matrix EZM grün fluoreszierendes protein gfp cfp venus förster resonance eneregy transfer FRET biosensor design optical force biosensor dipole orientation optimization force exertion cell adhesion Rho GTPase fluorescence activated cell sorting FACS extracellular matrix ECM green fluorescent protein gfp cfp venus 42.03 42.12 42.13 42.15 WCE 000: Photobiologie {Biophysik} WA 310: Mikroskopie {Biologie} WA 320: Spektroskopie {Biologie}
37	Advanced Fluorescence Microscopy to Study Plasma Membrane Protein Dynamics Piguet, Joachim January 2010 (has links) Membrane protein dynamics is of great importance for living organisms. The precise localization of proteins composing a synapse on the membrane facing a nerve terminus is essential for proper functioning of the nervous system. In muscle fibers, the nicotinic acetylcholine is densely packed under the motor nerve termini. A receptor associated protein, rapsyn, acts as a linker between the receptor and the other components of the synaptic suramolecular assembly. Advances in fluorescence microscopy have allowed to measure the behavior of a single receptor in the cell membrane. In this work single-molecule microscopy was used to track the motion of ionotropic acetylcholine (nAChR) and serotonin (5HT3R) receptors in the plasma membrane of cells. We present methods for measuring single-molecule diffusion and their analysis. Single molecule tracking has shown a high dependence of acetylcholine receptors diffusion on its associated protein rapsyn. Comparing muscle cells that either express rapsyn or are devoid of it, we found that rapsyn plays an important role on receptor immobilization. A three-fold increase of receptor mobility was observed in muscle cells devoid of rapsyn. However, in these cells, a certain fraction of immobilized receptors was also found immobile. Furthermore, nAChR were strongly confined in membrane domains of few tens of nanometers. This showed that membrane composition and membrane associated proteins influence on receptor localization. During muscle cell differentiation, the fraction of immobile nAChR diminished along with the decreasing nAChR and stable rapsyn expression levels. The importance of rapsyn in nAChR immobilization has been further confirmed by measurements in HEK 293 cells, where co-expression of rapsyn increased immobilization of the receptor. nAChR is a ligand-gated ion-channel of the Cys-loop family. In mammals, members of this receptor family share general structural and functional features. They are homo- or hetero-pentamers and form a membrane-spanning ion channel. Subunits have three major regions, an extracellular ligand binding domain, a transmembrane channel and a large intracellular loop. 5HT3R was used as a model to study the effect of this loop on receptor mobility. Single-molecule tracking experiments on receptors with progressively larger deletions in the intracellular loop did not show a dependence of the size of the loop on the diffusion coefficient of mobile receptors. However, two regions were identified to play a role in receptor mobility by changing the fractions of immobile and directed receptors. Interestingly, a prokaryotic homologue of cys-loop receptors, ELIC, devoid of a large cytoplasmic loop was found to be immobile or to show directed diffusion similar as the wild-type 5HT3R. The scaffolding protein rapsyn stabilizes nAChR clusters in a concentration dependent manner. We have measured the density and self-interactions of rapsyn using FRET microscopy. Point-mutations of rapsyn, known to provoke myopathies, destabilized rapsyn self-interactions. Rapsyn-N88K, and R91L were found at high concentration in the cytoplasm suggesting that this modification disturbs membrane association of rapsyn. A25V was found to accumulate in the endoplasmic reticulum. Fluorescent tools to measure intracellular concentration of calcium ions are of great value to study the function of neurons. Rapsyn is highly abundant at the neuromuscular junction and thus is a genuine synaptic marker. A fusion protein of rapsyn with a genetically encoded ratiometric calcium sensor has been made to probe synapse activity. This thesis has shown that the combined use of biologically relevant system and modern fluorescence microscopy techniques deliver important information on pLGIC behaviour in the cell membrane. / <p>QC 20151217</p> fluorescence microscopy plasma membrane membrane proteins membrane proteins diffusion single-molecule imaging single-molecule tracking pentameric ligand-gated ion channels nicotinic acetylcholine receptor serotonin receptor synapse neuromuscular junction post-synaptic scaffold rapsyn myopathies fluorescent proteins Förster resonance energy transfer FRET imaging protein-protein interactions protein trafficking photo-activatable proteins
38	Kant's Departure from Hume's Moral Naturalism Saunders, Josiah Paul January 2007 (has links) This thesis considers Kant's departure from moral naturalism. In doing so, it explores the relationship between ethics, naturalism, normativity and freedom. Throughout this exploration, I build the case that Kant's ethics of autonomy allows us to make better sense of ethics than Hume's moral naturalism. Hume believes that morality is ultimately grounded in human nature. Kant finds this understanding of ethics limiting. He insists that we are free - we can critically reflect upon our nature and (to an extent) alter it accordingly. This freedom, I contend, renders the moral naturalist's appeal to nature lacking. Of course, a Kantian conception of freedom - some form of independence from the causal order - is fairly unpopular in contemporary circles. In particular, a commitment to naturalism casts doubt on such a notion of freedom. I argue with Kant that such a conception of freedom is essential to the conception of ourselves as rational agents. The critical turn, unlike naturalism, warrants this conception of freedom, accommodating the point of view of our rational agency. It thus allows Kant's ethics of autonomy to better grasp certain key elements of morality - normativity and our agency - than Hume's moral naturalism. Philosophy Kant (Immanuel) Hume (David) naturalism science ethics morals morality normativity agency freedom desire reason rationality autonomy heteronomy sympathy justice ends means ideal happiness duty right wrong inclination motive metaphysics of morals moral epistemology kingdom of ends Blackburn (Simon) Korsgaard (Christine) Allison (Henry) Darwall (Stephen) Förster (Eckart) Kuehn (Manfred)
39	Texte für das Theaterspiel von Kindern und Jugendlichen im ‚Dritten Reich‘ / Eine exemplarische Untersuchung verschiedener Spielreihen / Stage plays for children and adolescents in the 'Third Reich' / An exemplary study of several series of plays Korte, Barbara 10 April 2017 (has links) No description available. 400 800 Kindertheater Jugendtheater Kinder- und Jugendtheater Geschichte des Kindertheaters Geschichte des Jugendtheaters Nationalsozialismus Drittes Reich Hitlerjugend Reichsjugendführung Nationalsozialistischer Lehrerbund Deutschland 1933-1945 Laienspiel Laientheater Amateurtheater Schultheater Mirbt, Rudolf Luserke, Martin Colberg, Erich Wiemer, Rudolf Otto Magiera, Georg Adalbert Cordes, Margarethe Seidat, Oskar Förster, Wolfgang Altendorf, Werner Spiele der deutschen Jugend Spiele und Feste der deutschen Schule Münchener Laienspiele children's theatre youth theatre history of children's theatre history of youth theatre National Socialism Third Reich Hitler Youth Reich Youth Leadership National Socialist Teachers Assocation Germany 1933-1945 amateur theatre school theatre Mirbt, Rudolf Luserke, Martin Colberg, Erich Wiemer, Rudolf Otto Magiera, Georg Adalbert Cordes, Margarethe Seidat, Oskar Foerster, Wolfgang Altendorf, Werner Philologien (PPN621711713)

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