Global ETD Search

161	Flux and dissipation of energy in the LET theory of turbulence Salewski, Matthew January 2010 (has links) The first part of this thesis examines and compares the separate closure formalisms of Wyld and Martin, Siggia, and Rose (MSR). The simplicity of Wyld’s perturbation scheme is offset by an incorrect renormalisation, this contrasts with the formally exact analysis of MSR. The work here shows that a slight change in Wyld’s renormalisation keeps the main results intact and, in doing so, demonstrates that this formalism is equivalent to MSR. The remainder of the thesis is concerned with turbulent dissipation. A numerical solution of the Local Energy Transfer theory, or LET, is reworked and extended to compute decaying and forced turbulence at large Reynolds numbers. Using this numerical simulation, the phenomenon of turbulent dissipation is investigated. In order to use decaying turbulence to study the turbulent dissipation rate as a function of Reynolds number, it is necessary to choose an appropriate time with which a measurement can be taken. Using phenomenological arguments of the evolution of a turbulent fluid, criteria for establishing such a time are developed. An important study in turbulence is the dissipation rate in the limit of vanishing viscosity, also known as the dissipation anomaly. This thesis derives an equation for the dissipation rate from the spectral energy balance equation. Using the LET computation for both decaying and forced turbulence, results are obtained that can be used along with the equation to study the mechanisms behind the dissipation anomaly. It is found that there is a difference in the behaviour of the normalised dissipation rate between decaying and forced turbulence and, for both cases, it is largely controlled by the energy flux. 530.15
162	Fluorescent Dyes and Quenchers with Rigid Linkers Meineke, Dirk Norbert Hendrik 02 March 2017 (has links) No description available. 540 chemistry organic synthesis fluorescence spectroscopy dyes anisotropy energy transfer FRET Chemie (PPN62138352X)
163	Resonance Energy Transfer-Based Molecular Switch Designed Using a Systematic Design Process Based on Monte Carlo Methods and Markov Chains Rallapalli, Arjun January 2016 (has links) <p>A RET network consists of a network of photo-active molecules called chromophores that can participate in inter-molecular energy transfer called resonance energy transfer (RET). RET networks are used in a variety of applications including cryptographic devices, storage systems, light harvesting complexes, biological sensors, and molecular rulers. In this dissertation, we focus on creating a RET device called closed-diffusive exciton valve (C-DEV) in which the input to output transfer function is controlled by an external energy source, similar to a semiconductor transistor like the MOSFET. Due to their biocompatibility, molecular devices like the C-DEVs can be used to introduce computing power in biological, organic, and aqueous environments such as living cells. Furthermore, the underlying physics in RET devices are stochastic in nature, making them suitable for stochastic computing in which true random distribution generation is critical.</p><p>In order to determine a valid configuration of chromophores for the C-DEV, we developed a systematic process based on user-guided design space pruning techniques and built-in simulation tools. We show that our C-DEV is 15x better than C-DEVs designed using ad hoc methods that rely on limited data from prior experiments. We also show ways in which the C-DEV can be improved further and how different varieties of C-DEVs can be combined to form more complex logic circuits. Moreover, the systematic design process can be used to search for valid chromophore network configurations for a variety of RET applications.</p><p>We also describe a feasibility study for a technique used to control the orientation of chromophores attached to DNA. Being able to control the orientation can expand the design space for RET networks because it provides another parameter to tune their collective behavior. While results showed limited control over orientation, the analysis required the development of a mathematical model that can be used to determine the distribution of dipoles in a given sample of chromophore constructs. The model can be used to evaluate the feasibility of other potential orientation control techniques.</p> / Dissertation Computer engineering Nanoscience Biochemistry chromophores dna self-assembly logic devices molecular circuits nanotechnology resonance energy transfer
164	Energy Transfer and Optical Anisotropy in Semiconducting Polymers Sona N Avetian (6984974) 12 August 2019 (has links) <p>To fully optimize devices for solar energy conversion, a comprehensive understanding of how excitons migrate in materials for solar cell devices is crucial. Understanding the mechanisms behind exciton diffusion and energy transfer will enable the fabrication of highly efficient devices. However to thoroughly study exciton properties, techniques implementing high spatial (nm sizes) and temporal (fs time scales) resolution is required. Herein, we utilize transient absorption microscopy (TAM) with 50 nm spatial resolution and 200 fs temporal resolution to elucidate exciton diffusion in polymeric materials for solar energy conversion.</p> <p>While organic devices are inexpensive and require simpler fabrication procedures than inorganic materials, their device efficiencies often suffer due to their semi-crystalline nature, lending to short diffusion lengths which lead to trap sites and inevitably recombination. It has been demonstrated that achieving long-range exciton diffusion lengths is possible through coherence effects. Coherence can be found in an intermediate electronic coupling region where delocalization and localization compete.</p> <p>To exploit coherence effects, we study polymeric systems in which polymer chains are highly aligned via simple and scalable procedures; semiconducting fibers and solution coated films. In studying the fiber, we first implement polarized photoluminesce (PL) to determine optical ansitropy. From the polarized PL and PL images, it is observed that emission intensities are largest when probing along the transition dipole moment of the polymer. This suggests a type of Förester Resonance Energy Transfer mechanism in which excitons hop from one polymer chain to another.</p> <p>Solution coated polymer films are also studied to understand exciton diffusion as a function of deposition methods. By varying the solution concentration as well as coating rate, we are able to tune the morphology of the film. We observe a strong dependence between diffusion constant and deposition parameters, with diffusion constants of <i>ca.</i> 9, 13 and 33 cm<sup>2</sup>/s for three different films. The results obtained in this thesis are preliminary steps in an effort to elucidate energy transfer mechanisms and rates.</p><br> Physical Chemistry of Materials Ultra-fast spectroscopy Semiconducting polymer fibers semiconducting polymer films energy transfer exciton diffusion
165	Complexos rutênio-ftalocianinas como candidatos a fotossensibilizadores: estudos fotoquímicos, fotofísicos, fotobiológicos e avaliação do efeito \"teranóstico\" da interação com pontos quânticos / Evaluation of the theranostic effect by interaction between ruthenium phthalocyanine complexes and quantum dots nanoparticles. Photophysics, photochemical and photobiology studies Martins, Tássia Joi 23 February 2018 (has links) O câncer pode ser definido como um conjunto de mais de 100 doenças causadas pelo crescimento desordenado de células e está entre as cinco doenças que mais causam mortalidade no mundo. Por este motivo, pesquisas tem voltado sua atenção no desenvolvimento de novos fármacos e novos tratamentos que sejam mais eficazes e seletivos para o tratamento e diagnóstico dessas doenças. A terapia fotodinâmica (TFD) tem recebido merecido destaque, pois trata-se de uma terapia não invasiva e seletiva. Esta terapia consiste na ativação de um fotossensibilizador através da irradiação em determinado comprimento de onda da luz visível, que em presença de oxigênio molecular é capaz de produzir oxigênio singleto, desencadeando uma série de reações que culminam na produção de espécies reativas de oxigênio (ERO´s), citotóxicas às células. Portanto, a busca por fotossensibilizadores que sejam eficazes para o uso em TFD torna-se importante. As ftalocianinas são compostos que possuem características químicas que as fazem bons candidatos a fotossensibilizadores, pois possuem forte absorção no visível, são quimicamente estáveis e capazes de produzir oxigênio singleto. Combinar fotossensibilizadores com marcadores fluorescentes é uma estratégica interessante para expandir o uso da TFD, uma vez que desta maneira é possível aliar terapia com diagnóstico por imagem. Neste trabalho, propôs-se o estudo da transferência de energia que ocorre em um sistema combinando ftalocianinas de rutênio e nanopartículas fluorescentes, denominadas pontos quânticos (PQ´s). Foi avaliada também a potencialidade citotóxica de espécies que produzem oxigênio singleto (1O2) em terapia fotodinâmica de neoplasias. Paralelamente realizaram-se ainda os estudos fotoquímicos e fotofísicos, a fim de avaliar o sistema para aplicação em \"teranóstica\". Os resultados demonstraram que os complexos rutênio- ftalocianinas apresentaram características de um bom fotossensibilizador, uma vez que apresentaram citotoxicidade em células de linhagens tumorais após estímulo luminoso em baixas concentrações. Quanto à interação entre ftalocianinas e pontos quânticos, verificou-se que estas demonstraram serem bons supressores de fluorescência das nanopartículas, ocorrendo o mecanismo estático para esta supressão. / Cancer is one of the leading causes of death worldwide. Contemporary therapies do not bring the expected effectiveness and the treatment is often non-selective and its application is associated with several side effects, such as: the possibility of damage to genetic material or induction of secondary cancer process by radiotherapy; increasing resistance of tumor cells to chemotherapeutic agents, which translates into a high social and economic costs; significant reduction in the quality of life of patients underwent surgery and their long and expensive hospitalization. In contrast, antitumor photodynamic therapy (PDT) is a non-invasive method consisting of three components: a chemical compound called photosensitizer, light of a specific wavelength, and oxygen. This combination initiates a series of photochemical reactions leading to generation of reactive oxygen species and/or free radicals, which cause the death of cancer cells. Combining therapy and diagnostics has been the aim of many studies, improving the efficacy of the treatment. In this work, we propose the study of interaction between ruthenium phthalocyanines compounds and CdTe-MPA quantum dot, once in literature is described that quantum dots can transfer energy for phthalocyanines, increasing its citotoxycity. It was evaluated the cytotoxic effects of the species that produced singlet oxygen (1O2) and its effects with different axial ligand in the sctrucuture of ruthenium phthalocyanines complexes. It was performed also photophysics and photochemical studies to evaluate the system for theranotic purposes. The results showed that the ruthenium phthalocyanines are good photosensitizer candidates once it presented high cytotoxity effects against different cancer cells lines after irradiation, even in low concentrations. Regarding to the interaction between phthalocyanines and quantum dots, it was demonstrated that the complexes could quenched the nanoparticles fluorescence occurring the static quenching mechanism. Energy transfer Ftalocianinas Phthalocyanines Pontos quânticos Quantum dots Theranostic. Transferência de energia Tteranóstico.
166	Organic and organometallic fluorenyl-pophyrins for optics / Fluorényl-porphyrines organiques et organométalliques pour l'optique Zhang, Xu 17 March 2017 (has links) Au cours de cette thèse, nous avons synthétisé de nouveaux composés en utilisant des macrocycles de porphyrines comme socle pour nos architectures. L'objectif était d'étudier leurs propriétés en optique linéaire et non linéaire. Plus précisément, nous avons synthétisé et caractérisé trois groupes de dendrimères de type fluorényl-porphyrine, une série de porphyrines organométalliques dérivés du ruthénium, et commencé une dernière série de nouvelles porphyrines. Les corrélations entre les propriétés et la structure ont été étudiés, le processus de transfert d'énergie du donneur vers la porphyrine a aussi été évalué. En introduction, nous avons présenté le contexte général de la chimie des porphyrines basé sur quatre aspects: (1) la structure chimique, (2) les voies de synthèse, (3) les propriétés en optique linéaire (4) et en optique non linéaire. Nous avons ensuite présenté les différents travaux qui ont été effectués dans notre groupe, et conclut en proposant de nouvelles structures basées sur ces résultats. Dans le premier chapitre, nous présentons la synthèse d'un groupe de dendrimères dérivés de thiényl-porphyrines. Les unités thiényles font le pont entre les dendrons conjugués de type fluorényle et le coeur de la porphyrine. Le transfert d'énergie pour ces molécules est efficace et ces dernières présentent des propriétés en optique non linéaire qui sont intéressantes avec une amélioration de l'absorption à deux photons (ADP). Dans le deuxième chapitre, nous présentons la synthèse d'une série de composés à base de ruthénium dérivés de la Tétrafluorényl- porphyrine (TFP), pour des applications en optique non linéaire (üNL). Dans le troisième chapitre, nous présentons la synthèse de deux nouveaux dendrons avec des antennes fluorényles terminales greffées en position 9 d'un troisième fluorényle, respectivement par voie conjuguées ou non conjuguées. Puis deux nouveaux dendrimères ont été obtenus par couplage de Sonogashira à partir de ces dendrons sur le coeur porphyrine TFP. Le transfert d'énergie de ces dendrons vers la porphyrine est efficace. Ces molécules présentent des propriétés en optique non linéaire qui sont intéressantes et les résultats en ADP sont très prometteurs. Dans le quatrième chapitre, nous présentons la synthèse de porphyrines avec des bras fluorénones terminales. Ces porphyrines émettent également une luminescence rouge et le transfert d'énergie est très efficace. Comme perspectives, un nouveau type de porphyrine méso-alcynyle est envisagé, pour l' instant nous avons juste synthétisé la génération 0 de cette série de dendrimères: Les quatre bras tluorényles sont pontés au coeur de la porphyrine avec des liens alcynyles, et les études optiques de ces prototypes sont en cours. / During this thesis, we have elaborated new compounds using the porphyrin macrocycle as the basic platform of our architectures. The aim, after their syntheses, was to study the linear optical (LO) and non-linear optical (NLO) properties of these new molecules. More precisely, we have synthesized and characterized three groups of fluorenyl-porphyrin dendrimers, a series of ruthenium organometallic porphyrins, and started a series of new type of porphyrin. Their correlations on optical property-structure have been discussed, as well as the energy transfer processes from the donor fragments to porphyrin core acceptor. In the introduction, we presented the general background of the porphyrin chemistry based on four aspects: ( I) structure, (2) synthetic methods, (3) LO properties and (4) NLO properties. We further reviewed prior porphyrin studies done in our group and proposed new molecular designs based on these results. In the first chapter, we synthesized a group of thienyl porphyrin cored dendrimers. The thienyl units connect the conjugated fluorenyl dendrons to porphyrin ring by alkynyl bridges. The energy transfer (ET) of these porphyrins is very efficient and they present interesting NLO properties with enhanced Two-photon absorption (TPA). In the second chapter, we synthesized a series of ruthenium compounds based on Tetra-fluorenyl porphyrin core (TFP) for NLO applications. In the third chapter, we synthesized two new dendrons with two terminal fluorenyl antennae fi xed on the 9 position of the fluorenyl units in conjugated or non-conjugated way respecti vely. Then two new porphyrin dendrimers were obtained by Sonogashira coupling reaction of these dendrons on TFP porphyrin core. Their ET from dendrons to porphyrin core is very efficient. They present interesting LO properties and the TPA results are very promising. In the fourth chapter, we synthesized a group of TFP cored porphyrins with terminal fluorenone anns. These porphyrins emit red luminescence and the ET is very efficient from the linear arms toward their cores. As perspective, a new type of meso-alkynyl porphyrin series is considered, for the moment we synthesized only the generation 0 of the dendrimers: the four fluorenyl arms of this porphyrin are bridged to the centre ring by alkynyl chains, and the optical studies of this prototype are in progress. Porphyrine Fluorène Dentrimère Organometallic chemistry Optics Energy transfer Ruthenium Nonlinear optics Organic light-emitting diode 540
167	Produção de compósitos metal-dielétrico, a partir de sistemas GeO2 - Bi2O3 dopados com Tm3+ e nanopartículas metálicas, para aplicações com guias de onda que atuem como amplificadores na região do infravermelho. / Production of metal-dielectric composites from Tm3+ doped GeO2-Bi2O3 systems and metal nanoparticles for waveguide applications that act as amplifiers in the infrared region. Maylon Miranda Martins 21 August 2018 (has links) Durante este trabalho foram produzidas amostras vítreas (na forma bulk) de composição Bi2O3-GeO2. Na primeira parte do trabalho foram analisadas condições de preparo. Para analisar a influência do cadinho foram usados cadinhos de alumina (Al2O3) e aluminosilicato (Al2O3 - SiO2) mantendo-se fixas as concentrações de Bi2O3 e temperatura de fusão. Para analisar o efeito da temperatura de fusão foram usadas temperaturas de 1100°C e 1200°C mantendo fixa a concentração de Bi2O3 e o tipo de cadinho. Por último para analisar o efeito da concentração de Bi2O3 foram usadas amostras com diferentes concentrações de 32 %, 42% e 62% (% em peso) mantendo a temperatura de fusão. A segunda parte do trabalho consistiu em analisar a transferência de energia entre os centros de luminescentes Bi+ e os íons de túlio (Tm3+) adicionando 2 % de óxido de túlio (Tm2O3) na composição dos vidros Bi2O3-GeO2, a fim de comparar com resultados da amostra sem o referido dopante. Posteriormente foi adicionada a concentração de 0,05 % de AgNO3 para aumentar a intensidade luminescente da emissão de Tm3+ segundo a teoria do efeito plasmonico, assim como o ganho em 1470 nm. Foi montado posteriormente arranjo para medir o ganho relativo das amostras na forma bulk Bi2O3-GeO2 dopadas com Tm3+, com e sem prata, para justificar a aplicação destes vidros como materiais para uso em dispositivos amplificadores na área de telecomunicação; o uso das amostras na forma de bulk é menos dispendioso do que a fabricação dos dispositivos, e nos permite avaliar o potencial do material previamente. Foram feitas medidas de emissão para comprovar as propriedades fotoluminescentes do material, e medidas de absorção para comprovar a presença de íons de bismuto, plasmon da prata, e incorporação dos íons de Tm3+; as medidas de MET (Microscópio Eletrônico de Transmissão) foram feitas para verificar o tamanho médio das nanopartículas de prata e difração de elétrons para identificar a estrutura cristalina das nanopartículas, comprovando assim a presença da prata nos vidros. Na presença da prata o ganho aumentou em 500% atingindo 4,5 dB/cm. Os resultados que serão reportados mostram o potencial de vidros de composição Bi2O3 - GeO2 com nanopartículas de prata e Tm3+ para aplicações que requeiram luminescência intensa de banda larga na região de 1300 - 1600 nm e amplificação óptica em 1470 nm. / During this work, we produced glass samples (in bulk form) with Bi2O3-GeO2 composition. In the first part of the work, we analyzed the preparation conditions. In order to evaluate the influence of the crucible we used alumina (Al2O3) and aluminosilicate (Al2O3 - SiO2) crucibles, keeping the concentration of Bi2O3 and melting temperature fixed. To analyze the melt temperature we used the temperature of 1100 °C and 1200 °C keeping the concentration of Bi2O3 and type of crucible fixed. Finally, to analyze the effect of the concentration samples we used different concentrations of 32%, 42% and 62% (in % wt) and the melting temperature and the crucible type remained fixed. The second part of the work consisted in evaluating the energy transfer between the Bi+ luminescent centers and the Tm3+ ions by adding 2% of Tm2O3 in the composition of the Bi2O3 - GeO2 glasses, in order to compare the results with those without the rare earth ions. Subsequently, 0.05 wt % of AgNO3 was added to increase the luminescent intensity of thulium ions (Tm3+) according to the theory of the plasmonic effect as well as the gain at 1470 nm. It was later assembled an arrangement to measure the relative gain of bulk samples Bi2O3 - GeO2 doped with thulium oxide (Tm2O3), with and without silver nanoparticles, to justify the application of these glasses as materials to be used in amplifying devices; the use of bulk sample is less expensive than the fabrication of devices and allows us to evaluate previously the material potential. We carried out emission measurements to verify the photoluminescent properties of the material and absorption measurements to verify the concentration of bismuth ions, the silver plasmonic effect, and the incorporation of Tm3+ ions. TEM (Transmission Electron Microscope) was used to verify the average size of silver nanoparticles and electron diffraction to identify the crystalline structure of the nanoparticles and to prove mainly the presence of silver in the glasses. Enhancement of about 500% was observed for the relative gain that reached 4.5 dB/cm. The reported results show the potential of Bi2O3 - GeO2 composite glasses with silver nanoparticles and Tm3+ for applications requiring intense large bandwidth luminescence in the 1300-1600 nm region and optical amplification at 1470 nm. Amplificadores Materiais compósitos Microeletrônica Nanopartículas Amplifier devices Energy transfer Preparation conditions Relative gain Silver nanoparticles
168	Transferência resonante de energia e mecanismos de transporte eletrônico em dispositivos moleculares baseados na molécula orgânica Alq3. / Ressonant energy transfer and transport mechanisms in molecular electronic devices based on Alq3 organic molecule. Fazenda, Rodrigo Delsin 27 April 2007 (has links) O objetivo do presente trabalho foi o estudo e analises de processos de transferência de energia e transferência de elétrons em dispositivos moleculares. Para tal fim foi utilizado o polímero de poliestireno (PS) como matriz hospedeira das moléculas tendo sido verificado que este material apresenta uma característica de um excelente isolante mostrando-se adequado para a fabricação de dispositivos moleculares do tipo elétrico e óptico. Os dispositivos moleculares ópticos e elétricos foram obtidos pela técnica de \"spin coating\" a partir de soluções contendo o polímero de PS e as moléculas de Alq3 e Rh590 em solvente orgânico, mostrando que esta técnica permite a obtenção de filmes com espessura de 200nm e rugosidade com RMS da ordem de 2nm. Foi verificado que filmes de PS contendo moléculas de Alq3 e Rh590 podem ser utilizadas como dispositivos de transferência de energia e que a eficiência de transferência depende da sobreposição da banda de emissão do Alq3, banda de absorção da Rh590 e a concentração relativa das moléculas; tendo sido obtido dispositivos com ate 86 % de eficiência de transferência. Foi verificado que os dispositivos de ITO/PS:Alq3/Al e ITO/PS:Alq3:Rh590/Al apresentam mecanismos de transporte do tipo de transporte limitado por cargas armadilhadas nos níveis de defeito situadas na região da banda proibida entre o HOMO e LUMO das moléculas de Alq3 e Rh590. Os dispositivos elétricos de ITO/PS:Alq3/Al mostraram a existência de efeito memória que foram atribuídos a mudanças nos estados de ocupação de níveis altamente localizados (armadilhas) e à existência de nano- partículas metálicas no interior do filme de PS:Alq3 promovendo a transferência de elétrons por efeitos de tunelamento ressonante. Os resultados obtidos no presente trabalho em relação aos mecanismos de transferência de energia e eletrônica apresentam-se promissores para futuras aplicações em dispositivos moleculares como memórias moleculares, chaves moleculares, dispositivos de emissão (OLEDs). / The aim of the present work was to study and analyses the energy and electron transfer process in molecular devices. The molecular devices were fabricated by using the polystyrene polymer because this material, as it was verified in this work, showed a good insulator features. The optical and electrical molecular devices were fabricated by using the spin-coating techniques from the PS, Alq3 and Rh520 solution in organic solvent. The thin film obtained by this technique showed a 200 nm of thickness and 2 nm RMS of roughness, that it is a good parameter values in order to obtain a molecular devices. The thin film of PS with Alq3 and Rh520 as host molecules acts as a good energy transfer device yielding the transfer efficiency of 86%. The transfer efficiency showed dependence on relative concentration of molecules in the PS film and in the good emission an absorption spectra overlapping of molecules. The molecular device of type ITO/PS:Alq3/Al and ITO/PS:Alq3:Rh520/Al used as molecular device of electrical type showed that the electrons transfer mechanism is limited by charge trapped in the localized level between HOMO and LUMO levels of the molecules. The devices of the type ITO/PS:Alq3/Al showed additionally a memory and negative resistance features that it was attributed to the change in the charge trapped levels due to device polarization and to the existence of Al nano particles into the PS film. The results obtained in this work showed high cientific and technological relevance in order to project and fabricate the molecular devices. Alq3 Alq3 Dispositivos orgânicos Energy transfer Mecanismos de transporte Molecular devices Nanotechnology Nanotecnologia Transferência de energia Transport mechanisms
169	Estudo de transferência de energia eletrônica entre poli(p-fenilenovinileno) e corantes iônicos em solução / Study of electronic energy transfer between poly(p-phenylene vinylene) and ionic dyes in solution Santos, Willy Glen 26 September 2007 (has links) Neste trabalho estudou-se a síntese fotoquímica do Poli(pfenilenovinileno) (PPV) e a transferência de energia deste polímero para corantes iônicos tais como Basic Blue 3 (BB), Safranina-O (Sf), Eosina-Y (Eoy) e Resazurina (Rz). Na síntese do precursor do PPV, observou-se que o prolongamento do tempo de adição de NaOH no processo de polimerização resultou na inibição do mecanismo SN1, evitando a propagação dos polímeros hidrolisados. Medidas de FTIR e emissão de fluorescência mostraram que o processo de conversão do PTHT em PPV por via fotoquímica também gera polímeros oxidados, assim como na conversão térmica. Espectros de absorção eletrônica do polímero-corante aniônico mostraram que as bandas do corante estão deslocadas para regiões de menor energia, sugerindo a formação de um complexo no estado fundamental. No caso do polímero-corante catiônico, nenhuma mudança espectral é observada, indicando que o efeito de supressão pode estar ocorrendo no estado excitado. Os espectros de fluorescência estacionária e resolvida no tempo indicaram que a transferência de energia ocorre do estado excitado do polímero para o estado fundamental do corante via mecanismo de Förster. No caso do sistema polímero-corante aniônico, a transferência de energia ocorre no estado fundamental das espécies. A constante de supressão dinâmica do sistema PPV-BB foi determinada e comparada com a constante de supressão estática, demonstrando que a supressão do PPV pelo corante não ocorre apenas pelo mecanismo do tipo Förster, mas também pela supressão estática. / The aim of this work was to study the photochemical synthesis of poly(pphenylene vinylene) (PPV) and the energy transfer process evolving PPV and ionic dyes, such as Basic Blue-3, Resazurin, Eosin-Y, Safranin. It was observed that, in the synthesis of PPV precursor, the addition of NaOH in lager time intervals resulted in the inhibition of SN1 mechanism, avoiding the propagation of hydrolyzed polymers. FTIR and fluorescence emission measurements showed that the photochemical conversion from PTHT to PPV also generated oxidized polymers, as in thermal conversion. Electronic absorption of the system polymer-anionic dye revealed a red shift, suggesting the presence of complex species in the ground state. No structural changes or shifts were observed in the system polymer-cationic dye. Steady-state and time resolved fluorescence revealed that energy transfer occurs from the polymer excited-state to dye ground state, by Förster mechanism. For polymeranionic dye system, energy transfer occurs in ground state of both species. Dynamic quenching constant of PPV-Basic Blue-3 was determinated and compared with the static quenching constant. In this case, the quenching of fluorescence occurs by Förster energy transfer and also static quenching. corantes dyes energy transfer poli(p-fenilenovinileno) poly(p-phenylene vinylene) solution transferência de energia
170	Rôle de la cytoarchitecture dans la signalisation énergétique du cœur de souris / Role of cell architecture in energetic signalling of mouse heart Piquereau, Jérôme 07 January 2011 (has links) La cellule cardiaque requiert un apport énergétique conséquent qui exige une production et un transfert énergétiques efficaces. Si la production de l’énergie dépend essentiellement des propriétés intrinsèques des mitochondries, il semblerait que l’efficacité du transfert d’énergie du site de production vers les sites consommateurs (ATPases) pourrait être liée à l’architecture spécifique du cardiomyocyte qui conduit à une organisation spatiale singulière des structures internes (mitochondries, réticulum sarcoplasmique, myofilaments). Pour comprendre ce qui lie la cytoarchitecture, la compartimentation cellulaire et la fonction contractile, il a été entrepris d’étudier l’architecture cellulaire et la signalisation énergétique de cardiomyocytes au cours du processus de maturation de la cytoarchitecture et dans un modèle présentant une désorganisation des structures intracellulaires. La première partie de ce travail, réalisée durant le développement postnatal de la souris, a permis de démontré qu’il existe une synchronisation parfaite entre la mise en place de la cytoarchitecture et la maturation fonctionnelle du transfert d’énergie par canalisation directe des nucléotides adényliques entre les mitochondries et les ATPases. Si cette étude apporte un élément qui tendrait à démontrer l’implication de l’architecture cellulaire dans l’efficacité des transferts d’énergie, elle a également mis en avant la maturation très précoce de l’énergétique cellulaire. La mitochondrie faisant partie intégrante de cette architecture et étant modelée par des mécanismes de fusion et de fission, la deuxième étape de ce travail de thèse a consisté à étudier l’implication de la morphologie mitochondriale dans l’énergétique du cardiomyocyte. Il a ainsi été montré que, chez la souris, la diminution d’expression de la protéine OPA1, impliquée dans la fusion mitochondriale, conduit à des perturbations de la morphologie mitochondriale qui n’affectent pas la fonction intrinsèque mitochondriale mais qui altèrent le système de canalisation directe entre les mitochondries et les ATPases des myofilaments. De manière générale, ces résultats démontrent clairement une dépendance des transferts d’énergie à l’architecture cellulaire spécifique de la cellule musculaire cardiaque. / The cardiac cell function requires a large amount of energy and therefore needs a high efficiency of energetic production and energetic transfer. While the energy production depends on the intrinsic properties of the mitochondria, it appears that the efficiency of energetic transfers from the main producers (mitochondria) to consumers (ATPases) could be related to the specific architecture of the cardiomyocyte, which ensures a unique spatial organization of internal structures (mitochondria, sarcoplasmic reticulum, myofilaments). In order to reveal the role of mitochondrial network organization in cardiac energy metabolism, we studied the cellular architecture and the energetic signalling of cardiomyocytes in the process of maturation of the cytoarchitecture and in a model which exhibits a perturbation of the mitochondrial dynamics. The first part of this work, which was performed during postnatal development of the mouse, showed the perfect synchronisation between the establishment of the cytoarchitecture and the maturation of the transfer of energy by direct channelling of adenine nucleotides between mitochondria and ATPases. While this study provides an element which would demonstrate the involvement of cellular architecture in the efficiency of energy transfer, it also highlighted the very early maturation of the energetic system of the cell. Knowing that the mitochondria are an integral part of the cell architecture and that the mitochondrial network is controlled by fusion and fission mechanisms, the second step of this work consisted in investigating the involvement of mitochondrial dynamics in cardiomyocyte energetics. Our work has shown that a decrease in expression of OPA1, a protein responsible for mitochondrial fusion, leads to disruption of mitochondrial morphology which does not affect intrinsic mitochondrial function but affects the direct channelling of ATP and ADP between mitochondria and ATPases of the myofilaments. Overall, these results clearly demonstrate that energy transfer in cardiomyocytes strictly depends on specific cellular architecture. Développement postnatal Dynamique mitochondriale Heart Energetic metabolism Energy transfer Cell architecture Postnatal development Mitochondrial dynamics

Search results