Global ETD Search

91	Matériaux moléculaires amorphes pour la photostructuration de fluorescence / Amorphous molecular materials for fluorescence photopatterning Jacquart, Aurélie 16 November 2010 (has links) Au cours de ce travail de thèse, des matériaux monomères amorphes bifonctionnels photochromes et fluorescents ont été élaborés et étudiés dans le but de former sous irradiation interférentielle des structures fluorescentes par migration de matière photoinduite . Pour contrer le phénomène d'extinction de fluorescence par l'unité photochrome azoïque, un espaceur saturé de type adduit de Diels-Alder a été introduit entre les deux entités photoactives. De telles molécules ont été obtenues avec succès ainsi que les composés modèles azoïques et fluorescents correspondants.L'introduction de nouveaux fragments comme l'espaceur ne modifiait pas les propriétés de photochromisme que ce fût en solution ou à l'état solide. A l'opposé, des études de spectroscopie de fluorescence stationnaire et résolue en temps ont montré que la présence de cet espaceur limitait efficacement les phénomènes d’extinction de fluorescence au sein des composés bifonctionnels. Dans le but de comprendre les mécanismes photophysiques sous-tendant l'extinction de fluorescence observée, des expériences de spectroscopie d'absorption transitoire femtoseconde ont été réalisées sur les composés modèles et bifonctionnels. Elles ont mis en évidence l’existence d’un transfert d’énergie électronique picoseconde de l’unité fluorescente vers l’unité photochrome.Sous forme de films minces non-dopés, ces nouveaux composés bifonctionnels ont conduit par photostructuration holographique à des reliefs de surface réinscriptibles, stables à température et sous lumière ambiantes et modulés en intensité de fluorescence, les maxima d'émission correspondant aux zones d'accumulation en composés bifonctionnels. Une nouvelle réaction photochimique consistant en la photocoupure de dérivés fluorescents nitrés de la triphénylamine a été mise en évidence. L’irradiation sous UV de solutions et de films minces provoquait une photorupture de l’état à transfert de charge intramoléculaire, conduisant à la modification de la couleur émise de l’orange au bleu. Des structures fluorescentes modulées en énergie ont pu ainsi être obtenues par irradiation au travers d’un masque tout en contrôlant la quantité de lumière apportée. / This PhD thesis presents the elaboration and the studies of bifunctional amorphous small molecule-based materials combining photochromic and fluorescent units in order to form fluorescent patterns by photoinduced mass transport under interferential irradiation A saturated spacer made of a Diels-Alder adduct was introduced between both photoactive units to inhibit emission quenching of the fluorophore by the azo photochromic moiety. Such compounds as well as their fluorescent and azo model compounds have successfully been synthesised.New fragments such as the spacer brought no modification to the photochromic properties in solution and in the solid state. Conversely, time-resolved and steady-state fluorescence studies showed that the spacer efficiently limited fluorescence quenching within the bifunctional compounds. In order to gain insight into the mechanism responsible for the fluorescence quenching, femtosecond transient absorption spectroscopy measurements have been performed on model and bifunctional compounds. They evidenced picosecond electronic energy transfer from the fluorescent unit towards the azo moiety.As non doped thin films, rewritable surface relief gratings (SRG) stable under ambient light and at room temperature could be written through holographic illumination and displayed fluorescence patterns. Modulation of the emission intensity resulted from the accumulation of fluorophores attached to the azo units undergoing photoinduced mass migration. A novel photochemical reaction leading to the photocleavage of fluorescent nitro-substituted triarylamine derivatives has been proved. UV irradiation in solution and in the solid state caused photodisruption of the intramolecular charge transfer state, yielding neat modification of the emission colour from orange into blue. Fluorescent patterns modulated in energy could have been obtained by using a mask and controlling the amount of photons. Dérivés azoïques Triarylamines Photochromisme Fluorescence Migration de matière photoinduite Photostructuration Photochimie Azo derivatives Triarylamine derivatives Photochromism Fluorescence Photoinduced mass transport Photopatterning Photochemistry
92	Mechanistic Investigations of Metal-Metal Cooperativity in Dinickel Complexes and Iron/Cobalt Prussian Blue Analogues Stevens, Hendrik 13 May 2021 (has links) No description available. 540 Metal-Metal Cooperativity Nickel Hydride Complexes C-H Activation Low-Valent Metal Centers Preorganized Ligand Scaffold Iron/Cobalt Prussian Blue Analogues Charge-Transfer-Induced Spin Transition Transient Absorption Spectroscopy Chemie (PPN62138352X)
93	QUANTUM EFFECTS ON ENERGY TRANSPORT IN 2D HETERO-INTERFACES AND LEAD HALIDE PEROVSKITE QUANTUM DOTS Victoria A Lumsargis (15060268) 10 October 2023 (has links) <p dir="ltr">Photovoltaics are leading devices in green energy production. Understanding the fundamental physics behind energy transport in candidate materials for future photovoltaic and optoelectronic devices is necessary to both realize material limitations and improve efficiency. Excitons, which are bound electron-hole pairs, are central to determining how energy propagates throughout semiconductors. Exciton transport is greatly influenced by material dimensionality. In highly ordered quantum dot (QD) systems, electronic coupling between individual QDs can lead to coherent exciton transport, whereas in two-dimensional heterostructures, excitons can form at the interface of a heterojunction, creating charge-transfer excitons.</p><p dir="ltr">This dissertation is dedicated to summarizing the studies of exciton transport and behavior in two systems: perovskite QD superlattices and transition metal dichalcogenide (TMDC)/polyacene heterostructures. Chapter 1 provides readers with details on these materials in addition to information on the fundamental concepts (i.e., excitons, phonons, energy transfer) needed to best appreciate further chapters. Chapter 2 summarizes the spectroscopic techniques (photoluminescence and transient absorption spectroscopy and microscopy) used to examine exciton behavior. Next, the effects of disorder and dephasing pathways on the ability of perovskite QDs to coherently couple is investigated through the lens of superradiance in Chapter 3. After this, the temperature-dependent exciton transport within perovskite QD superlattices is imaged with high spatial and temporal resolutions in Chapter 4. The experimental transport data on these superlattices provides evidence for environment-assisted quantum transport, which, until this study, had yet to be realized in solid-state systems. In Chapter 5, attention is switched to verifying the existence and deepening the understanding of the behavior of several spatially separated interlayer excitons in a tungsten disulfide/tetracene heterostructure. Finally, Chapter 6 summarizes the preliminary results obtained through transient absorption spectroscopy on other TMDC/polyacene heterostructures where separation of the triplet pair state is attempted. </p><p dir="ltr">It is this author’s hope that this dissertation will not only summarize their graduate work but will also serve as inspiration for others to continue learning and contribute to the advancement of the energy research field.</p> Optical properties of materials Structure and dynamics of materials Perovskites TMDC 2D Material Energy transport Charge transport Polyacenes nanoscale interface Exciton Transient absorption transition metal dicalcogenide superradiance superfluorescence triplets Environment-Assisted Quantum Transport
94	MANIPULATION OF EXCITON DYNAMICS BY INTERFACIAL ENERGY/CHARGE TRANSFER IN TWO-DIMENSIONAL SEMICONDUCTORS Dewei Sun (17468739) 29 November 2023 (has links) <p dir="ltr">In the realm of two-dimensional (2D) materials, monolayer (ML) transition metal dichalcogenides (TMDCs) have gained significant interest due to their direct bandgap transition, high carrier mobility, strong light-matter interaction, and robust spin and valley degrees of freedom, starkly contrasting their bulk counterparts. Owing to their large surface-to-volume ratio, the integration of ML TMDCs with other various 2D semiconductors and microcavities offers opportunities to study fundamental photo-physics processes at the heterointerfaces, paving the way for implementation of next-generation devices.</p><p dir="ltr">Chapter 1 provides a concise introduction to 2D materials, particularly TMDCs, and their fascinating optical and electronic properties. It examines the role of excitons in 2D materials, and the impact of energy transfer (ET) and charge transfer (CT) on exciton’s properties in TMDC through the construction of 2D van der Waals (vdW) heterostructures and coupling with optical microcavities. This chapter also delves into the potential enhancement of TMDCs’ optical properties by integrating 2D hybrid lead halide perovskites and ultra-thin three-dimensional (3D) halide perovskites with TMDCs. Furthermore, it sets the general context for light-matter interaction, another form of ET, considering both weak and strong coupling regimes.</p><p dir="ltr">Chapter 2 outlines the optical techniques employed to gather data for this work. A focus is placed on ultrafast optical techniques like transient absorption spectroscopy, which allow for direct probing and analysis of ET and CT dynamics at the heterointerface.</p><p dir="ltr">Photoinduced interfacial CT plays a critical role in the field of energy conversion involving vdW heterostructures constructed by inorganic nanostructures and organic materials. However, the control of atomic-scale stacking configurations to modulate charge separation at interfaces remains challenging. Chapter 3 aims to illustrate tunability of interfacial charge separation in a Type-II heterojunction between ML-WS<sub>2</sub> and an organic semiconducting molecule by rational design of relative stacking configurations using 2D perovskites as scaffoldings. This chapter investigates how different molecular stacking, face-to-face versus face-to-edge, affects CT at the heterointerface. Our findings reveal that the CT process heavily depends on the relative stacking configurations at the organic-TMDCs heterointerface, with charge separation being notably slowed down for face-to-edge configuration compared to face-to-face configuration. These investigations open new opportunities for designing efficient charge separation processes in energy conversion applications by judiciously engineering interfaces between organic and inorganic semiconductors, using 2D perovskites as scaffolds.</p><p dir="ltr">Though TMDCs’ large surface-to-volume ratios make them excellent platforms for studying interfacial properties, the presence of bulky ligands on the surface of 2D perovskite poses a challenge, impeding direct interfacial coupling in their heterostructures. Chapter 4 details the fabrication of ML-WS<sub>2</sub> and ultra-thin CH<sub>3</sub>NH<sub>3</sub>PbX<sub>3</sub> (MAPbX<sub>3</sub>, X=Br, I) heterostructures with tunable energy levels, to study the dynamics of CT and ET at these hybrid interfaces. Notably, heterojunctions of WS<sub>2</sub> with pure MAPbBr<sub>3</sub> and MAPbI<sub>3</sub> were elucidated as Type-I and Type-II respectively, using photoluminescence (PL) and time-resolved photoluminescence (TR-PL) measurements. Transit absorption (TA) spectroscopy investigations unambiguously revealed a rapid ET facilitated by CT in the WS<sub>2</sub>/MAPbBr<sub>3</sub> heterostructure, with a time constant of ~20 ps, and a predominantly CT in the WS<sub>2</sub>/MAPbI<sub>3</sub> heterostructure with a time constant of ~50 femtosecond (fs). The successful interfacing of low-dimensional perovskites with an extensive array of traditional 2D materials such as TMDCs opens up possibilities for novel optoelectronic properties and applications within the field of 2D material systems. Furthermore, the ultrafast and efficient ET and CT processes hold promise for the creation of advanced energy conversion devices.</p><p dir="ltr">In the last chapter, we successfully fabricated a ML-WS<sub>2</sub> in conjunction with a silver (Ag) nanoparticle (NP) array. Our findings affirmed a weak light-matter coupling between ML-WS<sub>2</sub> and the Ag NP array, as evidenced by angle-resolved photoluminescence spectroscopy. Furthermore, an enhancement in the bright exciton emission from ML-WS<sub>2</sub> was observed at reduced temperatures. The analysis of PL enhancement factor at varying temperatures suggested that an upper bound of the enhancement factor for the bright exciton could reach ~51 or even higher at 7 K, given the imperfect uniformity of the electric filed generated around the NPs. This discovery carries significant implications for the manipulation of excitons in TMDCs and expands their potential applications in the field of optoelectronics.</p> Photochemistry transition metal dichalcogenide perovskite organic semiconducting molecules ultrafast spectroscopy photoluminescence time-resolved photoluminescence transient absorption spectroscopy (TAS) Exciton Dynamics and Transport
95	Étude photophysique de nouveaux systèmes moléculaires fonctionnels basés sur les styrylpyridines Marmois, Emilie 24 October 2008 (has links) Ce travail de thèse est principalement centré sur l’étude des processus photophysiques fondamentaux de nouveaux composés organiques à transfert de charge dérivés de styrylpyridine, réalisée grâce à des mesures de fluorescence résolue en temps à l’échelle picoseconde et d’absorption transitoire à l’échelle femtoseconde. Nous nous sommes tout d’abord intéressés au comportement des états excités de deux nouvelles hémicyanines. Les molécules de diméthoxystyrylpyridine méthylées ont montré l’établissement d’un équilibre entre les conformations syn et anti différent à l’état excité comparé à l’état fondamental, représenté par un temps de décroissance rapide de fluorescence. La deuxième constante de temps correspond à la dépopulation de l’état excité par les voies non radiatives telles que l’isomérisation et le twist du donneur de charge (effet « loose-bolt »). Concernant le dérivé de styrylpyridinium où le groupement phényl a été remplacé par diméthlaminothiophene, nos études ont prouvé l’implication du mouvement de rotation du groupement méthylpyridinium ainsi que l’intervention du croisement inter-système comme voies de relaxation. Dans un second temps, nous nous sommes penchés sur les propriétés de complexation de la molécule de styrylpyridine sur laquelle a été substitué un éther-couronne. Nos études nous ont permis de mettre en évidence la présence de deux centres de complexation (un au centre de la couronne, l’autre sur l’azote de la pyridine) montrant une sélectivité différente vis-à-vis des cations métalliques. Les stoechiométries ont pu être confirmées par une analyse des temps de réorientation des complexes formés. Après avoir étudié les divers composés constituant des « briques » élémentaires en vue de systèmes supramoléculaires plus élaborés, nous nous sommes intéressés à leurs éventuelles applications avec l’étude de systèmes pour la collecte et le transfert d’énergie. Nous avons tout d’abord démontré l’existence d’un transfert d’énergie ultra-rapide (180 fs à 6 ps) et ultra-efficace (>99.7%) dans des systèmes bichromophoriques contenant deux styrylpyridines avec un éther-couronne et asymétrisés par l’introduction d’un cation Mg2+ dans une seule couronne. Celui-ci se fait de la partie complexée vers la partie non complexée par interaction coulombienne. Une autre application envisagée réside dans la construction de complexes à métaux de transition pour le stockage d’énergie ou le stockage d’information. Nous avons tout d’abord étudié la formation d’un système supramoléculaire basé sur le phénanthroline et contenant quatre éther-couronnes libres. Nous avons mis en évidence l’existence d’un équilibre entre états singulets et triplets excités dans ces composés complexés avec Cuivre(I) ou Argent(I). Dans un second temps, nous avons étudié la formation de complexes liant deux bipyridines substitués contenant un éther-couronne à un ion Fe2+. Un tel complexe présente des propriétés de transition de spin BS?HS. Nos études ont ensuite révélé la formation de complexes à métaux de transition de taille nanométrique lors de l’ajout d’ions Ba2+. / This Ph.D. work mainly deals with the study of fundamental photophysical processes of new styrylpyridine-type organic compounds showing charge transfer, realised using picosecond fluorescence and femtosecond transient absorption. We were interested first in the excited-state behaviour of two new hemicyanines. Methylated dimethoxystyrylpyridines molecules showed the establishment of an equilibrium between syn and anti conformations which is different in the excited state compared to the ground state, represented by a fast relaxation time of fluorescence. The second time constant corresponds to depopulation of the the excited state by non-radiative pathways as isomerization and donor twist (« loose-bolt »). Concerning styrylpyridinium derivative where phenyl group was replaced by dimethylaminothiophene, our studies proved involvment of rotation of methylpyridinium group and intersystem crossing as relaxation pathways. Secondly, we were interested in complexation properties of ether-crown susbstituted styrylpyridine molecule. Our studies showed the presence of two complexation centers (one in the center of the crown, the other one on the nitrogen of pyridine) having a different selectivity for metallic cations. Stoichiometries were confirmed by analysis of the reorientation times of formed complexes. After the study of our different compounds as elementary « building–blocks » for more complex supramolecular systems, we were interested in their potential applications with the study of systems for collection and energy transfer. First, we highlighted the existence of an ultra fast (180 fs to 6 ps) and ultra efficient (>99.7%) intramolecular energy transfer in bichromophoric systems containing two ether-crowned styrylpyridines and dissymetrised by binding of a Mg2+ cation in only one crown. It occurs from the complexed part to the non-complexed one by coulombic interaction. Another envisaged application can be the construction of complexes containing transition metals for energy or information storage. We studied first the building of a supramolecular system based on phenanthroline and containing four free ether-crowns We also proved that there exists an equilibrium between singlet and triplet excited states in these compounds complexed with Copper(I) or Silver(I). Secondly, we studied formation of complexes binding two ether-crown substituted bipyridines to a Fe2+ ion. Such a complex has got some spin crossover properties. Then, we showed that the addition of Ba2+ ions induce formation of transition metals complexes with nanometric size. Styrylpyridine Transfert de charge Fluorescence résolue en temps Absorption transitoire Photodynamique des états excités Conversion interne Croisement inter-système États twistés Complexes organo-métalliques Transfert d’énergie Métaux de transition Transition de spin Styrylpyridine Charge transfer Time-resolved fluorescence Transient absorption Excited-state photodynamics Internal conversion Inter-system crossing Twisted states Organo-metallic complexes Energy transfer Transition metals Spin crossover
96	Light-induced energy and charge transfer processes in artificial photosynthetic systems Menting, Raoul 11 January 2013 (has links) Der Gegenstand der vorliegenden Arbeit ist die Untersuchung von photoinduzierten Energietransferprozessen (EET) und Elektronentransferprozessen (ET) in Modellsystemen, die als potentiell geeignet für eine Nutzung in der artifiziellen Photosynthese angesehen werden. Den beiden wesentlichen Zugängen zur Architektur artifizieller Photosynthese-Systeme entsprechend wurden vergleichend kovalente und sich selbst organisierende Systeme untersucht. In beiden Zugängen wurden ähnliche chemische Komponenten als optisch aktive Moleküle eingesetzt, insbesondere Phthalocyanine mit einem Silizium-Zentralatom (SiPc). Durch eine Kombination von stationären und zeitaufgelösten optisch-spektroskopischen Methoden konnten die lichtinduzierten ET- und EET-Prozesse identifiziert und quantifiziert werden. Im ersten Teil der Arbeit wurden mehrere kovalent gebundene Triaden und eine Pentade untersucht. In allen Systemen finden sehr effiziente ET und EET Prozesse statt. Es wurde gezeigt, dass das Lösungsmittel großen Einfluss auf die photophysikalischen Eigenschaften der Systeme ausübt. Die Lebensdauer des ladungsseparierten Zustandes variiert von 1,7 ns in Toluol bis 30 ps in DMF. Im zweiten Teil der Arbeit wurde erstmals gezeigt, dass sich in wässriger Lösung ein supramolekularer Komplex, bestehend aus einem Beta-Cyklodextrin (CD), einem konjugierten Subphthylocyanin (SubPc), einem Porphyrin (Por) und einem SiPc bilden kann. Letzteres wurde über unterschiedliche Ketten an zwei CDs kovalent gebunden. Die Selbstorganisation wird über hydrophobe Wechselwirkungen vermittelt und die Bildung der Komplexe ist sehr effizient. Nach selektiver Anregung von SubPc finden sequenzielle ET- und EET-Prozesse von SubPc zu SiPc statt. Das Por spielt die Rolle einer energetischen und elektronischen Brücke und ermöglicht die ET und EET-Prozesse von SubPc zu SiPc. Die Ladungsrekombination in den Grundzustand geschieht innerhalb von 1,7 ns. / The main objective of the present thesis was to conduct investigations of photo-induced electron transfer (ET) and excitation energy transfer (EET) processes in model compounds that are considered potentially appropriate for use in artificial photosynthesis. Two approaches have been used to construct the artificial photosynthetic systems, namely covalent and supramolecular approach. In both systems similar optically active molecules have been employed, particularly silicon-based phthalocyanines (SiPc). A comparative study between the covalently-linked and self-assembled systems had been conducted. For these purposes, thorough spectroscopic measurements in the UV/Vis range had been performed on these conjugates. A combination of steady-state and time-resolved experiments allowed an identification and quantification of the photo-induced ET and EET processes. In the first part of the work several covalently bound triads and a pentad bearing a central SiPc unit were studied. In all systems highly efficient ET and EET processes take place. It was found that the solvent exerts great influence on the photophysical properties of the systems. The lifetime of the charge-separated state varied from 1.7 ns (toluene) down to 30 ps (DMF). In the second part of the thesis, for the first time the formation of ternary supramolecular complexes consisting of a beta-cyclodextrin (CD), a conjugated subphthalocyanine (SubPc), a porphyrin (Por) and a series of SiPcs substituted axially with two CDs via different spacers was shown. These components are held in water by host-guest interactions and the formation of these host-guest complexes was found to be very efficient. Upon excitation of the SubPc-part of the complex sequential ET and EET processes from SubPc to SiPc take place. The Por dye acts as a transfer bridge enabling these processes. The probability of ET is controlled by the linker between CD and SiPc. Charge recombination to the ground state occurs within 1.7 ns. supramolekulare Chemie optische Spektroskopie Fluoreszenz Porphyrin artifizielle Photosynthese Lichtsammlung Anregungsenergietransfer lichtinduzierter Elektronentransfer Selbst-Organisation Selbst-Assemblierung transiente Absorption Phthalocyanin Bodipy. self-assembly optical spectroscopy fluorescence supramolecular chemistry porphyrin artificial photosynthesis light-harvesting excitation energy transfer photo-induced electron transfer transient absorption phthalocyanine subphthalocyanine bodipy. 530 Physik 29 Physik, Astronomie UH 5800 ddc:530
97	Femtosecond solvation, excited state dynamics, and photophysical properties of chromophores used in polynucleic acids Venugopal, Karunakaran 13 February 2007 (has links) Diese Arbeit ist Teil eines Weges, der die Polarisationsdynamik von Polynukleinsäure-Helices (DNA) zum Ziel hat. Die Dynamik kann im Prinzip von innen beobachtet werden, über Femtosekunden-zeitaufgelöste optische Spektroskopie eines Farbstoff-Moleküls anstelle einer Nukleinbase. Der optische Chromophor soll als solvatochrome Sonde der DNA Umgebung funktionieren. Dafür wurde 2-Amino-7-Nitro-Fluoren (ANF) gewählt, welches ideale solvatochrome Eigenschaften hat. Bevor der Einbau des Sondenmoleküls erfolgt, müssen dessen photophysikalischen Eigenschaften in reinen Lösungsmitteln und in Lösungsmittel-Mischungen weitgehend verstanden sein. Dieses Thema bestimmt den größeren Teil der Arbeit. ANF, aliphatische Derivate, und das entsprechende Nukleosid wurden synthesitsiert. Ihre thermodynamischen Eigenschaften, optischen Spektren, und ps Fluoreszenzlebensdauern werden für eine Reihe von Lösungsmitteln beschrieben. Präferentielle Solvatation in wässrigen Mischungen wird mit optischer Absorptions- und 1H NMR-Spektroskopie untersucht. Inclusionskomplexe mit Cyclodextrinen werden ebenfalls charakterisiert. Auf diese "klassischen" Studien folgt die fs-transiente optische Absorptionsspektroskopie von ANF und Derivaten. Die transienten Spektren werden zeilegt und die Banden für stimulierte Emission als Funktion der Zeit in den meisten Fällen erhalten. Damit erhält man eine Solvatations-Relaxationsfunktionen C(t) für die meisten Lösungsmittel (50 fs Zeitauflösung). Unterschiede zu bekannten Relaxationsfunktionen für die vieluntersuchte Sonde Coumarin 153 werden diskutiert. Wichtig ist, daß derart C(t) für ein ANF Nukleosid in Wasser existiert. Dies kann mit einer simulierten Kurve für ANF in DNA-Helices verglichen werden. Es folgt, dass gestapelte Chromophore im Innern dynamisch von jenen unterschieden werden können, die in die wässrige Umgebung herausgedreht sind. Der Cyaninfarbstoff Thiazol Orange (TO) wird von anderen Gruppen verwendet, um die Hybridisierung von DNA-Strängen zu verfolgen. Die Fluoreszenz von TO wird durch schnelle Isomerisation im S1 Zustand stark gelöscht. In dieser Arbeit wird die entsprechende innermolekulare Verdrillung mit fs-transienter Absorptionsspektroskopie und mit fs-zeitaufgelöster Fluoreszenzspektroskopie (Summenfrequenz-Erzeugung) zum ersten Mal zusammenhängend untersucht. Transiente Spektren in Lösung werden mit stationären Spektren in verschiedenen PNA/DNA Duplex-Konstrukten verglichen. Eine hochfrequente Schwingungsmode ist bei der strukturellen Reorganisation von TO nach S0 to S1 Anregung beteiligt. Zunehmende Aktivität begleitet die Verdrillung. Deshalb sollte die Form der stationären Fluoreszenzbande dazu geeignet sein, das verfügbare freie Volumen in DNA-Konstrukten abzuschätzen. / This work is part of an effort to observe the polarization dynamics of duplex polynucleic acids from the inside, through femtosecond time-resolved optical spectroscopy of a dye molecule which has been stacked into the structure at a well-defined site. The dye chromophore should act as a solvatochromic probe of its DNA environment. For a probe, 2-amino-7-nitro fluorene (ANF) had been selected since it has ideal solvatochromic properties. Before being linked into DNA, its photophysical properties in liquids and liquid mixtures should be understood. The larger part of this thesis deals with this topic. ANF, aliphatic derivatives, and the nucleoside were synthesized. Their thermodynamic properties, optical spectra, and ps fluorescence decay are examined in a wide range of solvents. For preferential solvation in aqueous mixtures, absorption results are compared with 1H NMR spectra. Inclusion properties were also explored. Femtosecond transient absorption spectroscopy of ANF and derivatives follows after these "classical" studies. The transient spectra are analyzed and, in most cases, the stimulated-emission band can be obtained as function of time. Ultrafast solvation relaxation functions (50 fs resolution) for many solvents are constructed from these data and discussed by comparison with a well-studied probe, Coumarin 153. Most importantly, the solvation relaxation of the ANF nucleoside in water is obtained and compared with a simulated relaxation of the chromophore in a DNA duplex. It follows that chromophores stacked inside DNA can be distinguished from chromophores which extend into the aqueous boundary layer. The cyanine dye Thiazole Orange (TO) is used by other groups to monitor the hybridisation of DNA strands. Its fluorescence is strongly quenched by intramolecular twisting in the excited state S1. In this thesis the twisting process is characterized by femtosecond transient absorption and fluorescence upconversion spectroscopy, combined, for the first time. The transient spectra are compared to stationary spectra in a PNA/DNA duplex where the degree of twisting is restricted. A high-frequency mode is shown to play an important role in the structural reorganisation of TO following S0 to S1 excitation. Its vibrational activity is correlated with twisting. Therefore the shape of the emission band may be used to estimate the available volume in DNA constructs. PNA Solvatochromie präferentielle Solvatation fs-transiente Absorption Solvatations-Relaxationsfunktion ANF C-153 TO DNA Solvatochromism preferential solvation femtosecond fluorescence upconversion solvation relaxation function ANF C-153 TO PNA and DNA 540 Chemie 30 Chemie ddc:540
98	Estudo da dinâmica de equilíbrio ácido- base de antocianinas / Study of acid-base balance dynamics of anthocyanins Paulo Firmino Moreira Junior 10 September 2003 (has links) Ao ser excitado do estado fundamental para o estado singlete excitado, o Pka do equilíbrio ácido-base das antocianinas apresenta um deslocamento de ca. 4 para ca. -1. Esta característica de superfotoácido, aliado à técnica de fotólise por pulso de laser, permite a perturbação da posição do equilíbrio ácido-base no estado fundamental. O acompanhamento da cinética de reestabelecimento do equilíbrio inicial, existente antes do pulso do laser, permite a determinação das constantes de desprotonação kd e protonação kp no estado fundamental. Este método foi aplicado para a determinação das constantes de protonação e desprotonação das seguintes antocianinas sintéticas e naturais: 4-metil-7-hidroxiflavílio (HMF), 4\', 7-dihidroxiflavílio (DHF), malvidina-3-glucosídeo (Oenina), malvidina-3,5-diglucosídeo (Malvina), pelargonidina-3,5-diglucosídeo (Pelargonina) e cianidina-3 ,5-diglucosídeo (Cianina). Assim, as constantes de desprotonação do estado fundamental são: kd = 1,4 x 106 s-1 (HMF), 3,1 x 106 s-1 (DHF), 5, 1 x 106 s-1 (Oenina), 3,8 x 106 s-1 (Malvina), 1,3 x 106 s-1 (Pelargonina) e 1,8 x 106 s-1 (Cianina). As constantes de protonação do estado fundamental são:kp = 3,56 x 1010 L mol-1 s-1 (HMF), 3,06 x 1010 L mol-1s-1 (DHF), 2,51 x 1010 L mol-1s-1 (Oenina), 2,9 x 1010 L mol-1s-1 (Malvina), 3,6 x 1010 L mol-1s-1 (Pelargonina) e 2,2 x 1010 L mol-1s-1 (Cianina). Nosso método é a única técnica que permite a determinação direta destas constantes. Este método também permite a determinação de kd e kp em meios micro-heterogêneos. Através de medidas de kd , foi possível provar que ocorre a estabilização do cátion flavílio de HMF em micelas aniônicas de SOS (dodecilsulfato de sódio). Em micelas não iônicas e catiônicas, por outro lado, ocorre a desestabilização do cátion flavílio, que se manifesta através do aparecimento de reatividade ausente em solução aquosa. Os resultados da aplicação deste método revelam ainda que o principal processo de dissipação da energia da luz, absorvida pelas antocianinas, é a transferência de próton no estado excitado e não a fluorescência. / Upon excitation from the ground state to the first excited singlet state, the pKa of the acid-base equilibrium of anthocyanins exhibits a large shift, from ca. 4 to ca. -1. This characteristic of super-photoacidity, coupled with the technique of laser flash photolysis, can be employed to perturb the position of the acid-base equilibrium in the ground state. Monitoring the kinetics of relaxation back to the initial equilibrium position that existed prior to the laser pulse permits determination of the rate constants for protonation (kp) and deprotonation (kd) in the ground state. This method was applied to the following natural and synthetic anthocyanins: 4-methyl-7-hydroxyflavylium (HMF); 4\', 7-dihydroxyflavylium (DHF); malvidine-3-glucoside (Oenin); malvidine-3,5-diglucoside (Malvin); Pelargonidine-3,5-diglucoside (Pelargonin); and. cyanidine-3,5-diglucoside (Cyanin). Thus, the ground state deprotonation rate constants (kd) for the acid form were found to be: 1.4 x 106 s-1 (HMF); 3.1 x 106 s-1 (DHF); 5.1 x 106 s-1 (Oenin); 3.8 x 106 s-1 (Malvin); 1.3 x 106 s-1 (Pelargonin); 1.8 x 106 s-1 (Cyanin). The corresponding rate constants for protonation of the ground state of the base (kp) were: 3.6 x 1010 M-1s-1 (HMF); 3.1 x 1010 M-1s-1 (DHF); 2.5 x 1010 M-1s-1 (Oenin); 2.9 x 1010M-1s-1 (Malvin); 3.6 x 1010 M-1s-1 (Pelargonin); 2.2 x 1010 s-1 (Cyanin). Our method is currently the only one that permits direct determination of these rate constants. This method also allows the determination of kpand kd in microheterogeneous media. Thus, employing measurements of kd, it was possible to demonstrate that anionic SDS (sodium dodecyl sulfate) micelles stabilize the flavylium cation form of HMF. In cationic and nonionic micelles, however, the flavylium cation is destabilized, which manifests itself via the appearance of reactivity that is absent in aqueous solution in the absence of these surfactants. Finally, the results of the application of this method show that the primary energy wasting process for radiant energy absorbed by anthocyanins is excited state proton transfer rather than fluorescence. Antocianinas Base-quinoidal Cátion flavílio Efeito pH Eq. ácido-base Flash fotólise Flavonóides (Estudo) Fotoquímica orgânica Hexametilflavílio Malvidina Malvina Oenina Pka Produtos naturais Transiente absorção Acid-base Eq. Anthocyanins Base quinoidal Flash photolysis Flavilium cation Flavonoids (Study) Hexamethylflavium Malvidin Malvina Natural products Oenine Organic photochemistry pH effect Pka Transient absorption
99	Estudo da dinâmica de equilíbrio ácido- base de antocianinas / Study of acid-base balance dynamics of anthocyanins Moreira Junior, Paulo Firmino 10 September 2003 (has links) Ao ser excitado do estado fundamental para o estado singlete excitado, o Pka do equilíbrio ácido-base das antocianinas apresenta um deslocamento de ca. 4 para ca. -1. Esta característica de superfotoácido, aliado à técnica de fotólise por pulso de laser, permite a perturbação da posição do equilíbrio ácido-base no estado fundamental. O acompanhamento da cinética de reestabelecimento do equilíbrio inicial, existente antes do pulso do laser, permite a determinação das constantes de desprotonação kd e protonação kp no estado fundamental. Este método foi aplicado para a determinação das constantes de protonação e desprotonação das seguintes antocianinas sintéticas e naturais: 4-metil-7-hidroxiflavílio (HMF), 4\', 7-dihidroxiflavílio (DHF), malvidina-3-glucosídeo (Oenina), malvidina-3,5-diglucosídeo (Malvina), pelargonidina-3,5-diglucosídeo (Pelargonina) e cianidina-3 ,5-diglucosídeo (Cianina). Assim, as constantes de desprotonação do estado fundamental são: kd = 1,4 x 106 s-1 (HMF), 3,1 x 106 s-1 (DHF), 5, 1 x 106 s-1 (Oenina), 3,8 x 106 s-1 (Malvina), 1,3 x 106 s-1 (Pelargonina) e 1,8 x 106 s-1 (Cianina). As constantes de protonação do estado fundamental são:kp = 3,56 x 1010 L mol-1 s-1 (HMF), 3,06 x 1010 L mol-1s-1 (DHF), 2,51 x 1010 L mol-1s-1 (Oenina), 2,9 x 1010 L mol-1s-1 (Malvina), 3,6 x 1010 L mol-1s-1 (Pelargonina) e 2,2 x 1010 L mol-1s-1 (Cianina). Nosso método é a única técnica que permite a determinação direta destas constantes. Este método também permite a determinação de kd e kp em meios micro-heterogêneos. Através de medidas de kd , foi possível provar que ocorre a estabilização do cátion flavílio de HMF em micelas aniônicas de SOS (dodecilsulfato de sódio). Em micelas não iônicas e catiônicas, por outro lado, ocorre a desestabilização do cátion flavílio, que se manifesta através do aparecimento de reatividade ausente em solução aquosa. Os resultados da aplicação deste método revelam ainda que o principal processo de dissipação da energia da luz, absorvida pelas antocianinas, é a transferência de próton no estado excitado e não a fluorescência. / Upon excitation from the ground state to the first excited singlet state, the pKa of the acid-base equilibrium of anthocyanins exhibits a large shift, from ca. 4 to ca. -1. This characteristic of super-photoacidity, coupled with the technique of laser flash photolysis, can be employed to perturb the position of the acid-base equilibrium in the ground state. Monitoring the kinetics of relaxation back to the initial equilibrium position that existed prior to the laser pulse permits determination of the rate constants for protonation (kp) and deprotonation (kd) in the ground state. This method was applied to the following natural and synthetic anthocyanins: 4-methyl-7-hydroxyflavylium (HMF); 4\', 7-dihydroxyflavylium (DHF); malvidine-3-glucoside (Oenin); malvidine-3,5-diglucoside (Malvin); Pelargonidine-3,5-diglucoside (Pelargonin); and. cyanidine-3,5-diglucoside (Cyanin). Thus, the ground state deprotonation rate constants (kd) for the acid form were found to be: 1.4 x 106 s-1 (HMF); 3.1 x 106 s-1 (DHF); 5.1 x 106 s-1 (Oenin); 3.8 x 106 s-1 (Malvin); 1.3 x 106 s-1 (Pelargonin); 1.8 x 106 s-1 (Cyanin). The corresponding rate constants for protonation of the ground state of the base (kp) were: 3.6 x 1010 M-1s-1 (HMF); 3.1 x 1010 M-1s-1 (DHF); 2.5 x 1010 M-1s-1 (Oenin); 2.9 x 1010M-1s-1 (Malvin); 3.6 x 1010 M-1s-1 (Pelargonin); 2.2 x 1010 s-1 (Cyanin). Our method is currently the only one that permits direct determination of these rate constants. This method also allows the determination of kpand kd in microheterogeneous media. Thus, employing measurements of kd, it was possible to demonstrate that anionic SDS (sodium dodecyl sulfate) micelles stabilize the flavylium cation form of HMF. In cationic and nonionic micelles, however, the flavylium cation is destabilized, which manifests itself via the appearance of reactivity that is absent in aqueous solution in the absence of these surfactants. Finally, the results of the application of this method show that the primary energy wasting process for radiant energy absorbed by anthocyanins is excited state proton transfer rather than fluorescence. Acid-base Eq. Anthocyanins Antocianinas Base quinoidal Base-quinoidal Cátion flavílio Efeito pH Eq. ácido-base Flash fotólise Flash photolysis Flavilium cation Flavonóides (Estudo) Flavonoids (Study) Fotoquímica orgânica Hexamethylflavium Hexametilflavílio Malvidin Malvidina Malvina Malvina Natural products Oenina Oenine Organic photochemistry pH effect Pka Pka Produtos naturais Transient absorption Transiente absorção
100	Femtosekunden Pump-Probe-Absorptionsspektroskopie zur Untersuchung der intramolekularen Dynamik von ß -Apo-Carotinsäuren und von Patman in verschiedenen Lösungsmitteln / Studying the intramolecular dynamics of ß -Apo-carotenoic acids and Patman in condensed phase by femtosecond pump probe absorption spectroscopy Stalke, Sebastian 21 October 2011 (has links) No description available. 540 Chemie Chemistry Femtosekunden transiente Absorption Laser Carotinoide Fluoreszenzsonden Patman Kinetik Zeitkonstanten intramolekularer Ladungstransferzustand ICT femtosecond transient absorption laser carotenoids fluorescent probes Patman kinetic time constants intramolecular charge-transfer state ICT 35.16 35.10 SIL 000: Laser-Chemie {Strahlungschemie} SD 000: Physikalische Chemie

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