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1	Spectroscopy and structure of jet cooled aromatics and van der Waals complexes Walters, Alan January 1991 (has links) No description available. 541 Intramolecular charge transfer
2	\"Transferência de carga e ligação de hidrogênio intramolecular em derivados de 9-aminoacridina\" / \"Intramolecular charge and hydrogen bon transfer in 9-aminoacridine derivatives\" Pereira, Robson Valentim 25 August 2006 (has links) Neste trabalho, o corante 9-aminoacridina foi derivatizado com compostos vinílicos que possuem grupos retiradores de elétrons. A incorporação destes leva à mudanças nas propriedades fotofísicas dos derivados, tais como deslocamentos para regiões de menor energia nos espectros de absorção e emissão, sugerindo a presença de transferência de carga intramolecular (ICT). Os estudos de fluorescência resolvida no tempo confirmam este processo para os derivados. Este estado ICT possui um tempo formação na faixa de 150 300 ps e um tempo de vida entre 1 3 ns, que depende do solvente. Os derivados que apresentam pelo menos um grupo carbonila como retirador de elétron, possuem um tempo de vida longo na faixa de 8 10 ns, atribuído à emissão do enol, formado a partir da conjugação estendida por ponte de hidrogênio. A polimerização destes derivados com o ácido metacrílico promoveram mudanças em suas propriedades fotofísicas estacionárias e resolvidas no tempo devido à quebra da conjugação  estendida. Este fato é ilustrado pelos espectros de absorção e emissão que mostram bandas estruturadas, deslocadas para a região de maior energia e um decaimento monoexponencial, semelhante ao observado com 9-aminoacridina. Anisotropia de fluorescência resolvida no tempo mostra que nos copolímeros o tempo de relaxação rotacional do corante é muito sensível à mudança conformacional do poli (ácido metacrílico) com o pH, possibilitando assim o estudo da dinâmica deste polímero em solução aquosa. / In this work, the dye 9-aminoacridine was derivatized with vinylic compounds containing electron withdrawing groups. The incorporation of these groups leads to changes in the photophysical properties of the dye, such a red shift in the absorption and emission spectra, suggesting the presence of intramolecular charge transfer (ICT) effect. Time-resolved studies have confirmed such process in all derivatives. This ICT state has a risetime in the range 150 300 ps and a fluorescence lifetime between 1 3 ns, that depends of the solvent. The derivatives with at least one carbonyl group as electron withdrawing, have an additional lifetime in the range of 8 10 ns, attributed to the enol emission formed by the extended conjugation. The polimerization of these derivatives with methacrylic acid induces changes in the stationary and time-resolved properties of the dye due to the breaking of the extended conjugation. This fact is illustrated by the absorption and emission spectra that show structured bands with a blue shift, and a monoexponencial decay, similar to the behavior of 9- aminoacridine. Time-resolved fluorescence anisotropy of the bound dye shows that the copolymers have a segment relaxation of the chain is very sensitive to the change in the conformational shape of poly (methacrylic acid) with pH, and such a process is well indicated by following the rotational relaxation of the dye. fluorescence fluorescencia intramolecular charge transfer intramolecular hydrogen bond ligação de hidrogênio intramolecular transferência de carga intramolecular
3	\"Transferência de carga e ligação de hidrogênio intramolecular em derivados de 9-aminoacridina\" / \"Intramolecular charge and hydrogen bon transfer in 9-aminoacridine derivatives\" Robson Valentim Pereira 25 August 2006 (has links) Neste trabalho, o corante 9-aminoacridina foi derivatizado com compostos vinílicos que possuem grupos retiradores de elétrons. A incorporação destes leva à mudanças nas propriedades fotofísicas dos derivados, tais como deslocamentos para regiões de menor energia nos espectros de absorção e emissão, sugerindo a presença de transferência de carga intramolecular (ICT). Os estudos de fluorescência resolvida no tempo confirmam este processo para os derivados. Este estado ICT possui um tempo formação na faixa de 150 300 ps e um tempo de vida entre 1 3 ns, que depende do solvente. Os derivados que apresentam pelo menos um grupo carbonila como retirador de elétron, possuem um tempo de vida longo na faixa de 8 10 ns, atribuído à emissão do enol, formado a partir da conjugação estendida por ponte de hidrogênio. A polimerização destes derivados com o ácido metacrílico promoveram mudanças em suas propriedades fotofísicas estacionárias e resolvidas no tempo devido à quebra da conjugação  estendida. Este fato é ilustrado pelos espectros de absorção e emissão que mostram bandas estruturadas, deslocadas para a região de maior energia e um decaimento monoexponencial, semelhante ao observado com 9-aminoacridina. Anisotropia de fluorescência resolvida no tempo mostra que nos copolímeros o tempo de relaxação rotacional do corante é muito sensível à mudança conformacional do poli (ácido metacrílico) com o pH, possibilitando assim o estudo da dinâmica deste polímero em solução aquosa. / In this work, the dye 9-aminoacridine was derivatized with vinylic compounds containing electron withdrawing groups. The incorporation of these groups leads to changes in the photophysical properties of the dye, such a red shift in the absorption and emission spectra, suggesting the presence of intramolecular charge transfer (ICT) effect. Time-resolved studies have confirmed such process in all derivatives. This ICT state has a risetime in the range 150 300 ps and a fluorescence lifetime between 1 3 ns, that depends of the solvent. The derivatives with at least one carbonyl group as electron withdrawing, have an additional lifetime in the range of 8 10 ns, attributed to the enol emission formed by the extended conjugation. The polimerization of these derivatives with methacrylic acid induces changes in the stationary and time-resolved properties of the dye due to the breaking of the extended conjugation. This fact is illustrated by the absorption and emission spectra that show structured bands with a blue shift, and a monoexponencial decay, similar to the behavior of 9- aminoacridine. Time-resolved fluorescence anisotropy of the bound dye shows that the copolymers have a segment relaxation of the chain is very sensitive to the change in the conformational shape of poly (methacrylic acid) with pH, and such a process is well indicated by following the rotational relaxation of the dye. fluorescencia ligação de hidrogênio intramolecular transferência de carga intramolecular fluorescence intramolecular charge transfer intramolecular hydrogen bond
4	Development of a non-collinearly phase matched optical parametric amplifier and application in pump-probe spectroscopy Rohwer, Egmont J. 03 1900 (has links) Thesis (MSc)--University of Stellenbosch, 2011. / Please refer to full text to view abstract. Ultrafast laser spectroscopy Molecular dynamics Intramolecular charge transfer Pump-probe spectroscopy Dissertations -- Physics Theses -- Physics Optical parametric amplifier NOPA
5	Síntese, caracterização, estudos fotofísicos e acompanhamento in situ da reação de formação do corante (E)-2-[3-[4-(difenilamina)-fenil]-1-(p-tolil)-alilideno] malononitrila por microscopia de fluorescência / Synthesis, characterization, photophysics studies and monitoring in situ of the dye forming reaction (E) -2- [3- [4- (diphenylamine) phenyl] -1- (p-tolyl) -alilideno] malononitrile by fluorescence microscopy Lino, Aline Monteiro 18 February 2016 (has links) Neste trabalho foi sintetizado o corante (E)-2-[3-[4-(difenilamina)-fenil]-1-(p-tolil)- alilideno]-malononitrila (DFTAM), a partir da reação de condensação entre 4- (difenilamino)-benzaldeído e 2- [1- (4- metilfenil)-etilideno]-malononitrila, com catálise básica de piperidina. O produto obtido foi purificado por cromatografia líquida de alta eficiência (HPLC) e caracterizado pelas técnicas de espectrometria de massas, ressonância magnética nuclear de 13C e 1H e espectroscopia no infravermelho com transformada de Fourier. Para estudar suas propriedades fotofísicas, espectros de absorção e emissão de fluorescência, decaimento de fluorescência e espectro de absorção de transientes foram feitos em diferentes solventes, variando-se a polaridade e viscosidade do meio. Duas bandas de absorção foram observadas, uma em 303 nm e outra em cerca de 490 nm, a qual apresentou deslocamento batocrômico com o aumento da polaridade do solvente. Para essa região de excitação a banda de emissão variou entre 517 e 630 nm, com o aumento da polaridade do meio. Os decaimentos de fluorescência mostraram duas componentes, uma na ordem de picossegundos e a outra de nanossegundos. Os experimentos de absorção de transientes apresentaram três espécies, uma mais longa (maior que 10 ms) e duas outras de cerca 2 e 22 μs. Surfactantes catiônicos, não iônico, e aniônico também foram usados para produzir micelas e fazer os experimentos já citados. Pôde-se observar que o corante interagiu com as micelas, melhorando sua fluorescência e aumentando o tempo de vida do estado singleto. Por fim, acompanhou-se in situ, através da técnica de microscopia TIRF, a reação de formação de DFTAM a nível single molecule com catalise básica de nanopartículas de MgO e lamínulas de vidro funcionalizadas com piperazina. Através da intermitência de fluorescência dos filmes feitos de ambas as amostras, observou-se a formação de moléculas do corante através de ciclos de catálise da piperazina. / In this project the synthesis of (E) -2- [3- [4- (diphenylamine) phenyl] -1- (p-tolyl) - allylidene] -malononitrile (DFTAM) dye, from the condensation reaction between 4- (diphenylamino) benzaldehyde and 2- [1- (4-methylphenyl) ethylidene]-malononitrile using piperidine basic catalysis has been achieved. The dye was purified by high-performance liquid chromatography (HPLC) and characterized by mass spectrometry, nuclear magnetic resonance 13C and 1H and Fourier Transform infrared spectroscopy techniques. To study DFTAM photophysical properties, absorption and fluorescence emission spectra, fluorescence decay and transient absorption spectrum were recorded in solvents with different polarity and viscosity. Two absorption bands of DFTAM were observed, the first one at 303 nm was solvent independent while the second one at about 490 nm, had bathochromic shift with increasing polarity of the medium. In the visible region of excitation the maximum of the dye emission band observed varied between 517 and 630 nm, upon increasing solvent polarity. Fluorescence decays showed two distinct components, a fast one in picosecond time scale and a slow one in nanoseconds. Transient absorption experiments indicated the presence of three species with different lifetimes, one longer than 10 ms and the other two with lifetimes about 2 and 22 μs. Cationic, nonionic, anionic surfactants were also used to produce micelles for easy solubilization of DFTAM. It was observed that the dye interacted with the micelles, improving its fluorescence yield and lifetime. Finally, the DFTAM formation reaction was monitored in situby TIRF wide field microscopy technique at single molecule level. The basic catalysis was tested for MgO nanoparticles and glass surface functionalized with bound piperazine. Through the fluorescence intermittency time trace obtained from TIRF movies, the discrete formation of dye molecules was only observed in the case of piperazine catalytic cycles. basic catalysis catálise básica fluoróforo orgânico intramolecular charge transfer microscopia TIRF organic fluorophore single molecule single molecule TIRF microscopy transferência de carga intramolecular
6	Carotenoid Excited State Processes by Femtosecond Time-Resolved Pump-Probe and Multi-Pulse Spectroscopies WEST, Robert G. January 2018 (has links) This Ph.D. thesis is an exploration of carotenoids by ultrafast, time-resolved absorption spectroscopy to investigate their complicated relaxation processes, means of energy transfer, and dependence on structure. The introduction begins with an overview of carotenoids, intended for the reader to appreciate their importance and their complexity as revealed by decades of research in carotenoid photophysics. To understand the primary concerns of this research field, the reader is guided through basic theory of energetic processes, the experimental method, and methods of analysis. The main body of the text is the Research Chapter, containing four sections, each describing research using varied ultrafast transient absorption spectroscopies on carotenoids in solution and when bound to a host protein. Section 2.1 concerns an equilibration phenomenon in the lowest excited state of the carotenoid fucoxanthin in various solutions and temperatures by a multi-pulse transient absorption method. The same method is applied to fucoxanthin in a host antennae protein of the pennate diatom Phaeodactylum tricornutum to investigate the function of the equilibration in energy transfer to Chlorophyll a in Section 2.2. The next two sections regard the effect of carotenoid structure on its relaxation dynamics. Section 2.3 investigates the effect of the non-conjugated acyloxy group of two fucoxanthin derivatives in various solvents. Here, one of the energetic states involved in the equilibrium mentioned above is seen drastically affected. Lastly, Section 2.4 investigates alloxanthin, a carotenoid with an unusual pair of carbon-carbon triple bonds. Their effect on the conjugation is evaluated based upon the molecules' decay dynamics. A general summary and conclusion is provided at the end.
7	Síntese, caracterização, estudos fotofísicos e acompanhamento in situ da reação de formação do corante (E)-2-[3-[4-(difenilamina)-fenil]-1-(p-tolil)-alilideno] malononitrila por microscopia de fluorescência / Synthesis, characterization, photophysics studies and monitoring in situ of the dye forming reaction (E) -2- [3- [4- (diphenylamine) phenyl] -1- (p-tolyl) -alilideno] malononitrile by fluorescence microscopy Aline Monteiro Lino 18 February 2016 (has links) Neste trabalho foi sintetizado o corante (E)-2-[3-[4-(difenilamina)-fenil]-1-(p-tolil)- alilideno]-malononitrila (DFTAM), a partir da reação de condensação entre 4- (difenilamino)-benzaldeído e 2- [1- (4- metilfenil)-etilideno]-malononitrila, com catálise básica de piperidina. O produto obtido foi purificado por cromatografia líquida de alta eficiência (HPLC) e caracterizado pelas técnicas de espectrometria de massas, ressonância magnética nuclear de 13C e 1H e espectroscopia no infravermelho com transformada de Fourier. Para estudar suas propriedades fotofísicas, espectros de absorção e emissão de fluorescência, decaimento de fluorescência e espectro de absorção de transientes foram feitos em diferentes solventes, variando-se a polaridade e viscosidade do meio. Duas bandas de absorção foram observadas, uma em 303 nm e outra em cerca de 490 nm, a qual apresentou deslocamento batocrômico com o aumento da polaridade do solvente. Para essa região de excitação a banda de emissão variou entre 517 e 630 nm, com o aumento da polaridade do meio. Os decaimentos de fluorescência mostraram duas componentes, uma na ordem de picossegundos e a outra de nanossegundos. Os experimentos de absorção de transientes apresentaram três espécies, uma mais longa (maior que 10 ms) e duas outras de cerca 2 e 22 μs. Surfactantes catiônicos, não iônico, e aniônico também foram usados para produzir micelas e fazer os experimentos já citados. Pôde-se observar que o corante interagiu com as micelas, melhorando sua fluorescência e aumentando o tempo de vida do estado singleto. Por fim, acompanhou-se in situ, através da técnica de microscopia TIRF, a reação de formação de DFTAM a nível single molecule com catalise básica de nanopartículas de MgO e lamínulas de vidro funcionalizadas com piperazina. Através da intermitência de fluorescência dos filmes feitos de ambas as amostras, observou-se a formação de moléculas do corante através de ciclos de catálise da piperazina. / In this project the synthesis of (E) -2- [3- [4- (diphenylamine) phenyl] -1- (p-tolyl) - allylidene] -malononitrile (DFTAM) dye, from the condensation reaction between 4- (diphenylamino) benzaldehyde and 2- [1- (4-methylphenyl) ethylidene]-malononitrile using piperidine basic catalysis has been achieved. The dye was purified by high-performance liquid chromatography (HPLC) and characterized by mass spectrometry, nuclear magnetic resonance 13C and 1H and Fourier Transform infrared spectroscopy techniques. To study DFTAM photophysical properties, absorption and fluorescence emission spectra, fluorescence decay and transient absorption spectrum were recorded in solvents with different polarity and viscosity. Two absorption bands of DFTAM were observed, the first one at 303 nm was solvent independent while the second one at about 490 nm, had bathochromic shift with increasing polarity of the medium. In the visible region of excitation the maximum of the dye emission band observed varied between 517 and 630 nm, upon increasing solvent polarity. Fluorescence decays showed two distinct components, a fast one in picosecond time scale and a slow one in nanoseconds. Transient absorption experiments indicated the presence of three species with different lifetimes, one longer than 10 ms and the other two with lifetimes about 2 and 22 μs. Cationic, nonionic, anionic surfactants were also used to produce micelles for easy solubilization of DFTAM. It was observed that the dye interacted with the micelles, improving its fluorescence yield and lifetime. Finally, the DFTAM formation reaction was monitored in situby TIRF wide field microscopy technique at single molecule level. The basic catalysis was tested for MgO nanoparticles and glass surface functionalized with bound piperazine. Through the fluorescence intermittency time trace obtained from TIRF movies, the discrete formation of dye molecules was only observed in the case of piperazine catalytic cycles. catálise básica fluoróforo orgânico microscopia TIRF single molecule transferência de carga intramolecular basic catalysis intramolecular charge transfer organic fluorophore single molecule TIRF microscopy
8	Caractérisation et intégration de nouveaux systèmes donneur-accepteur dans des cellules photovoltaïques / Characterization and Integration of New Push-pull Systems in Photovoltaic Cells Maffeis, Valentin 25 October 2018 (has links) Ce travail de thèse porte sur l’étudephoto-physique de chromophores donneur-π-accepteur utilisés dans les cellules solaires àcolorant. Après photo-excitation, ces moléculessubissent des processus de transfert de chargeintramoléculaire (ICT), de solvatation etd’injection de charges qui se déroulent dans ledomaine temporel de la picoseconde. Or touterelaxation énergétique de l’état excité diminue lacinétique de l’injection de charges.Des mesures de spectroscopie stationnaire et defluorescence résolue en temps (de la femto- à lananoseconde) ont permis de résoudre ladynamique de relaxation de ces colorants ensolution, sur films mésoporeux et en cellulescomplètes.Les dynamiques de relaxation spectrale etd’inhibition de l’intensité de fluorescence del’état excité ont pu être caractériséesindépendamment et mettent en évidence unchangement d’état électronique à l’état excité.Les trois colorants étudiés évoluent vers un étatà transfert de charge (état CT). Un tel étatinteragit fortement avec son environnement.Afin d’étudier l’injection de charge dans lesoxydes mésoporeux semi-conducteurs, unmontage expérimental de fluorescence résolue entemps destiné à l’étude de systèmes opaques etdiffusifs a été réalisé et est décrit dans cette thèse.Ce montage possède une résolution temporelled’environ 300 fs.Les résultats mettent en évidence la présenced’une compétition entre l’injection de charges etla relaxation de l’état excité dans les cellulescomplètes. / This thesis deals with thephotophysical study of donor-π-acceptorchromophores used in dye sensitized solar cells.After photo-excitation, these molecules undergointramolecular charge transfer (ICT), solvationand charge injection processes that take place inthe picosecond time domain. However, anyenergetic relaxation of the excited statedecreases the injection kinetics.Steady-state spectroscopy and time-resolvedfluorescence measurements (from the femto- tothe nanosecond) were used to solve therelaxation dynamics of these dyes in solution, onmesoporous films and in complete cells.The spectral relaxation and fluorescencequenching dynamics of the excited state couldbe characterized independently and highlight anelectronic relaxation at the excited state. Thethree dyes studied evolve towards a chargetransfer state (CT state). Such a state is in stronginteraction with its environment.To study charge injection in semiconductormesoporous oxides, a time-resolvedfluorescence set-up for the study of opaque anddiffusive systems has been implemented and isdescribed in this thesis. It provides a timeresolution of about 300 fs.The results demonstrate the existence of acompetition between the injection of chargesand the relaxation of the excited state in thecomplete cells Cellules à colorants Femtoseconde Transfert de charge intramoléculaire Donneur-accepteur Spectroscopie éléctronique Génération de somme de fréquence Pus-pull Intramolecular charge transfer Electronic spectroscopy Dye sensitized solar cell Femtosecond Fluorescence upconversion
9	Synthesis, self-assembly and photophysical evaluation of fluorophores derived from acenes, heteroacenes and quinazolines / Synthèse, auto-assemblage et étude photophysique de fluorophores dérivés d'acènes, d'heteroacènes et de quinazolines Doan, Thu Hong 26 January 2018 (has links) Les semiconducteurs organiques (OSC) tels que les composés organiques photovoltaïques (OPVs), les diodes électroluminescentes organiques (OLEDs) ou encore les transistors organiques à effet de champ (OFETs) constituent un domaine de recherche très attractif en raison de leur potentiel en tant que couches actives dans les dispositifs optoélectroniques. Les composés aromatiques polycycliques ainsi que les hétéroaromatiques sont considérés comme des matériaux prometteurs pour les OSC en raison de leurs conductivités électriques potentielles, de leurs propriétés optiques ainsi que de leurs assemblages géométriques. Ces deux systèmes et leurs propriétés photophysiques ont été étudiés dans les trois chapitres de cette thèse. Dans le premier chapitre, une étude sur un ensemble d'acènes linéaires, angulaires et condensés consistant en des liens hétéroatomes avec des agrégations uniques a été décrite et analysée. Les hétéroacènes N-fusionnés angulaires et π-étendus sont la classe principale étudiée dans le deuxième chapitre. Leurs synthèses sont basées sur la réaction de couplage de Suzuki-Miyaura et la réaction de Cadogan. Outre les acènes et les hétéroacènes N-fusionnés, les N-hétéroaromatiques ont fait l'objet d'une attention particulière dans le domaine de matériaux. L'un d'entre eux est la classe des quinazolines utilisées comme partie acceptrice d'électrons dans les structures push-pull pour le transfert de charge intramoléculaire (TCI). L'étude des relations entre les structures dérivées du motif quinazoline de type donneur d'électron-accepteur-donneur (D-A-D) et leurs propriétés de photoluminescence est le principal travail mentionné dans le troisième chapitre. / Organic semiconductors (OSCs) are a highly attractive research field due to their potentials as active layers in optoelectronic devices such as organic field-effect transistors (OFETs), organic photovoltaic (OPVs) and organic light emitting diodes (OLEDs). Polycyclic aromatic compounds as well as heteroaromatics are considered as promising materials for OSCs due to their semi conductivity properties, optical properties and geometric structures. The mentioned systems and their photophysical properties were investigated in three chapters of my thesis. In the first chapter, a study on a set of linear, angular and condensed acenes consisting of heteroatom linkages with unique aggregations was described and analyzed. The angular and π-extended N-fused heteroacenes are the main class studied in the second chapter. Their synthesis is based on the Suzuki-Miyaura coupling and the Cadogan reactions. Besides acenes and N-fused heteroacenes, N-heteroaromatics have gained attention in material area. One of them is the quinazoline class that is known as an electron withdrawing unit in push-pull structures for intramolecular charge transfer (ICT). The investigation of the relationships between the electron donor-acceptor-donor (D-A-D) quinazoline-based structures and their photoluminescence properties is the main work mentioned in the third chapter. Acènes Hétéroacènes N-fusionnés Réaction de Cadogan Systèmes push-pull Transfert de charge intramoléculair Organic semiconductors Acenes Aggregations N-fused heteroacenes Cadogan reaction Push-pull systems Intramolecular charge transfer
10	Intramolecular Charge Transfer in Dimethylaminobenzonitrile and Related Aromatic Nitriles Lee, Jae-kwang 15 December 2009 (has links) No description available. Chemistry DMABN DMABE DIABN TMABN TICT Intramolecular Charge Transfer Reaction Time-resolved Transient Absorption Femtosecond Laser Spectroscopy TCSPC &960 &963 *-mediated ICT mechanism

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