Fotofísica em heteroestruturas contendo o polímero emissor PPV e espécies supressoras / Photophysics in nanostructured films containing poly(p-phenylene vinylene) (PPV) and acceptor species.

Postacchini, Bruna Bueno

12 January 2009

A compreensão dos caminhos de desativação não radiativa em polímeros conjugados é fundamental para o uso desses materiais em dispositivos luminescentes, células fotovoltaicas e sensores. Nesta tese, os processos não radiativos em filmes automontados de polímero luminescente foram investigados via análise da supressão de intensidade de fotoluminescência, utilizando a técnica de fluorescência estacionária, e através da medida do tempo de vida do estado excitado com fluorescência resolvida no tempo em arranjo de contagem de fótons. A camada emissiva constituída por poli(p-fenileno vinileno) (PPV) obtido da conversão térmica do precursor poli(cloreto de xilideno tetraidrotiofeno) (PTHT) apresentou tempos de vida entre 150 e 250 ps, e fraca dependência com o comprimento de onda de detecção da emissão. Na presença de uma monocamada contendo azocorante Vermelho do Congo (CR) ou ftalocianina tetrassulfonada de níquel (NiTsPc) atuando como receptor de energia foi observada supressão da fluorescência e encurtamento do tempo de vida (50-100ps). À medida que se aumenta a distância entre as camadas de doador e receptor via interposição de bicamadas de espaçador, a dinâmica do sistema tende à dinâmica de decaimento do estado excitado do PPV na ausência de receptor. A dependência da eficiência com a distância 1/r2 ou 1/r3 apontam para transferência de energia ressonante (RET) típica da interação plano-plano ou plano-camada. Os processos não radiativos foram também estudados em função da diluição de segmentos PPV dispersos em matriz de polieletrólito poli(cloreto de dodecildimetilamônio) PDAC. A diluição dos segmentos conjugados aumenta a eficiência quântica de emissão, torna o mecanismo de desativação mais lento (500 ps) e diminui a dependência do tempo de vida com o comprimento de onda de detecção, devido à menor eficiência dos mecanismos de desativação não radiativa. Na presença de uma camada receptora, a eficiência de transferência de energia é maior para amostras com segmentos mais diluídos indicando que esse mecanismo compete com os processos internos à própria camada emissiva. O tempo de vida aumenta em filmes com mais baixo grau de conjugação e a dependência com o comprimento de onda de emissão é mais forte. Em resumo, a técnica de automontagem se mostrou adequada para obter filmes com propriedades fotofísicas controláveis no nível molecular, que puderam ser estudadas com espectroscopias de fluorescência. / Understanding the pathway of excitation in conjugated polymers is important for using these materials as active layer in devices, photovoltaic cells and sensors. In this thesis, non-radiative processes in layer-by-layer (LbL) films were investigated with measurements of fluorescence quenching in steady-state fluorescence spectroscopy and of the singlet excited state lifetime using time-resolved fluorescence spectroscopy in a single photon counting (SPC) apparatus. The emissive layer of poly(p-phenylene vinylene) (PPV) obtained via thermal conversion of the soluble precursor poly(xylylidene tetrahydrothiophenium) chloride (PTHT) showed lifetime 150-250 ps and weak dependence on the emission wavelength. In the presence of an acceptor layer of either Congo Red (CR) or nickel tetrasulfonated phthalocyanine (NiTsPc) the PL intensity was quenched and the lifetime was shorter (50 -100 ps). Upon increasing the distance between the energy donor (PPV) and acceptor layers by interposing bilayers of inert polyelectrolytes the dynamics tended to the PPV dynamics. The distance-dependence of the energy transfer efficiency (1/r2 or 1/r3) points to a resonant process (RET) with a plane-to-plane or plane-to-slab interaction. The non-radiative processes were also studied for varying dilutions of the PPV segments in a matrix of the polyelectrolyte poly(dodecyl methylamonium chloride) (PDAC). This dilution increased the quantum efficiency and led to longer lifetimes (500 ps) owing to a less effective non-radiative energy transfer. When an energy acceptor layer is present, energy transfer is more efficient for the most diluted systems, indicating that such transfer competes with internal processes in the emissive layer. The lifetime increased in films with low degree of conjugation, for which there was a stronger dependence on the emission wavelength. It is concluded that the LbL methodology was suitable to obtain photophysical film properties that could be controlled at the molecular level, and investigated with varied fluorescence spectroscopies.

Femtosekunden-zeitaufgelöste Fluoreszenzspektroskopie von solvatochromen Sonden: Eine Suche nach lokaler Wasserdynamik

Gerecke, Mario

13 December 2017

In dieser Arbeit wurde die Methode der breitbandigen fs-zeitaufgelösten Fluoreszenzaufkonversionsspektroskopie (FLUPS) weiterentwickelt und vollständig theoretisch beschrieben, was anhand des Vergleichs von vorhergesagten und experimentell bestimmten photometrischen Korrekturfunktionen gezeigt werden konnte. Die Methode wurde verwendet, um lokale Fluoreszenzspektren von solvatochromen Sonden in der Nähe bestimmter Matrizes in wässrigen Lösungen zu messen. Aus der Dynamik der Stokes-Verschiebung konnte die Solvatations- bzw. Umgebungsdynamik bestimmt werden. Es wurden mittlere Solvatationszeiten τsolv von 0.57±0.06 für reines Wasser, 2.8±0.2 ps für DNA, 480±30 ps für Phospholipid-Kopfgruppen, 0.71±0.03 ps für ein Peptid (α-Helix) und 0.76±0.03 ps für eine t-Butyl-Gruppe erhalten. Hervorzuheben sind dabei die überraschend schnelle Relaxation nahe des Peptids und die sehr langsame Dynamik nahe der Lipid-Kopfgruppen, welche über 5 Größenordnungen der Zeit beobachtet wurde. Um den Einfluss einer hydrophoben Gruppe auf die Solvatationsdynamik erstmals zu aufzuzeigen, wurden präzise Messungen bei verschiedenen Temperaturen vor-genommen. Zuordnungen dieser Dynamiken zu molekularen Prozessen konnten durch Vergleiche zu MD-Simulationen durchgeführt werden. / The method of broadband fs time-resolved fluorescence upconversion spectroscopy (FLUPS) was further developed and completely theoretically described in this work. This was shown by comparing predicted and measured photometric correction functions. This method was used to obtain local fluorescence spectra of solvatochromic dyes near certain matrices in aqueous solution. From the dynamics of the Stokes-Shift the solvation or environmental dynamics respectively were obtained. Average solvation times τsolv of 0.57±0.06 for bulk water, 2.8±0.2 ps for DNA, 480±30 ps for phospholipid head groups, 0.71±0.03 ps for a peptide (α-helix) and 0.76±0.03 ps for a t-butyl group were obtained. Emphasized are the surprisingly fast dynamics near the peptide and the slow dynamics of the lipid head group region. The latter was observed over 5 orders of magnitude in time. To distinguish the influence a hydrophobic group for the first time, precise measurements at different temperatures were performed. Molecular processes were assigned to the obtained dynamics by comparisons to MD studies.

Ultraschnelle Spektroskopie

Zeitaufgelöste Fluoreszenz

Farbstoffe

Wasserdynamik

Ultrafast spectroscopy

Time-resolved fluorescence

Chromophores

Water dynamics

541 Physikalische Chemie

VG 8857

WC 2600

VG 8757

VK 8567

ddc:541

Betalaínas funcionais: semissíntese, propriedades fotofísicas e interações intermoleculares / Functional betalains: semisynthesis, photophysical properties and intermolecular interactions

Rodrigues, Ana Clara Beltran

19 May 2017

Betalaínas são alcalóides coloridos e com alta capacidade antioxidante que são encontrados em plantas e fungos. A biossíntese destes produtos naturais baseia-se na conversão enzimática da L-tirosina em ácido betalâmico e na condensação aldimínica deste com aminoácidos. A semissíntese de betalaínas naturais para aprofundar o estudo desta classe de pigmentos estimulou o desenvolvimento de betalaínas artificiais, incluindo derivados funcionais. Uma betalaína cumarínica foi criada para ser usada como sonda fluorescente para marcação de Plasmodium falciparum em glóbulos vermelhos. Esta Tese de Doutorado apresenta a semissíntese e estudo de três betalaínas cumarínicas (cBeets) e uma carboestiril-betalaína (csBeet). Procurou-se estabelecer relações entre as estruturas destes compostos e suas propriedades físico-químicas e fotofísicas como ponto de partida no desenvolvimento de uma nova classe de betalaínas funcionais. São apresentados dados sobre a lipofilicidade, estabilidade frente à hidrólise, potencial redox, absorção de um e dois fótons e fluorescência. Interações intermoleculares destes compostos foram investigadas por medidas de fluorescência em misturas binárias de solventes polares, albumina sérica bovina e micelas reversas de AOT em heptano/água. / Instituto de Química, Universidade de São Paulo, São Paulo, 2017. Betalains are colorful alkaloids with high antioxidant capacity that are found in plants and fungi. The biosynthesis of these natural products is based on the enzymatic conversion of L-tyrosine into betalamic acid and aldimine condensation thereof with amino acids. The semisynthesis of natural betalains improved the knowledge on this class of pigments and stimulated the development of artificial betalains, including functional derivatives. A coumarinic betalain was created to be used as a fluorescent label for Plasmodium falciparum on red blood cells. This Doctoral Thesis presents the semisynthesis and study of three coumarin betalains (cBeets) and one carbostyril betalain (csBeet). It was sought to establish relationships between the structures of these compounds and their physical-chemical and photophysical properties as a starting point in the development of a new class of functional betalains. Data on lipophilicity, hydrolysis stability, redox potential, one- and two-photon absorption and fluorescence are presented. Intermolecular interactions of these compounds were investigated by fluorescence measurements in binary polar solvent mixtures, bovine serum albumin and AOT reverse micelles in heptane/water.

Absorção de dois fótons

Absorption of two photons

Betalaínas

Betalains

Coumarins

Cumarinas

Efeitos de solvente

Fluorescência resolvida no tempo

Interação com proteínas

Interaction with proteins

Solvent effects

Time-resolved fluorescence

Structures auto-assemblées de guanines étudiées par spectroscopie optique résolue en temps / Guanine self-assembled structures studied by time-resolved optical spectroscopy

Hua, Ying

11 September 2013

Les brins d’ADN riches en guanine, comme ceux présents à l'extrémité des chromosomes humains, sont capables de s’associer entre eux pour former des structures G-quadruplexes, résultant de l’association de quatre guanines (G-tétrade). Ces structures sont actuellement l’objet d’un intérêt particulier pour le développement de nouvelles thérapies anti-cancéreuses et des applications potentielles pour l’électronique moléculaire. Il n’existe cependant que très peu d’études des propriétés photophysiques des G-quadruplexes. L'objectif de ce travail de thèse est d'étudier l’influence de la structrure des G-quadruplexes sur leurs propriétés photophysiques au moyen de la spectroscopie de fluorescence résolue en temps sur une gamme temporelle allant de la centaine de femtosecondes à la centaine de nanosecondes. Nous avons examiné l’effet de la taille de structures G-quadruplexes tétramoléculaires sur leurs propriétés photophysiques. Nous avons pu montrer que le caractère collectif des états ππ* des guanines est renforcé lorsque le nombre de tétrades augmente et qu’un transfert d'énergie ultra-rapide, en moins de 100 fs a lieu entre ces états. Nous avons ensuite mis en évidence le rôle des cations métalliques situés dans la cavité centrale des quadruplexes dans le processus de désactivation des états excités. En présence de K+, l'émission provient principalement des états délocalisée ππ* des guanines, alors qu’en présence de Na+, l’émission dominée par la contribution d’états excités à caractère de transfert de charge. Enfin, nous avons abordé l'effet de la topologie, en comparant les propriétés photophysiques des G-quadruplexes tétramoléculaires avec celles de structures formées par le repliement d’un simple brin d’ADN. Les différences observées peuvent s’expliquer par la rigidité accrue des structures simple-brins et l'orientation relative différente des tétrades qui détermine la force du couplage électronique entre les bases. / Guanine rich DNA strands have the ability to form four-stranded structures (G-quadruplexes). Their repetitive unit is the G-quartet (tetrad) where each base is connected with two others via four hydrogen bonds. These structures have a crucial role in biological aspect, as targets for anti-cancer therapies, and have great potential for applications in nanotechnology. We studied the electronic excited states of G-quadruplexes using two different techniques, fluorescence up-conversion (FU) and time-correlated single photon counting (TCSPC) , which allow probing the emissive states over six decades of time (from hundred femtoseconds to hundreds of nanoseconds). At first, we examined the effect of the size of tetramolecular G-quadruplexes on their photophysical properties. We have found that the collective behavior of Franck-Condon excited states is enhanced when the number of tetrads increases. For all systems studied, the anisotropy of the G-quadruplex, on the time scale of hundreds of femtoseconds, is lower than that of non-interacting mono-nucleotides in solution. This decrease in anisotropy is associated with an ultrafast energy transfer process between the bases. Then we demonstrated that the metal cations located in the central cavity of quadruplexes also affect their photophysical properties. In the presence of K+, emission arises mainly from delocalized ππ* states (excitons), whereas in the presence of Na+, it is dominated by the contribution of charge transfer excited states. Finally, we studied the effect of conformation, comparing the properties of tetramolecular G-quadruplexes with those formed by folding a single strand (intramolecular G-quadruplexes). We have shown that the conformation of the nano-structures influences the properties of the excited Franck-Condon states as emissive states as well. These effects are attributed to different geometric arrangement of G-tetrads in tetramolecular and intramolecular quadruplexes.

G-quadruplexes

Fluorescence résolue en temps

Transfert d’énergie

États ππ*

États à transfert de charge

G-quadruplexes

Time-resolved fluorescence

Energy transfer

.ππ* states

Charge transfer states

Interação da porfirina catiônica meso-tetrakis (4-N-metilpiridil) com vesículas de fosfolipídio nos estados gel e líquido cristalino / Interaction of the cationic meso-tetrakis (4-N-methylpyridyl) porphyrin with gel and liquid state phospholipid vesicles

Sousa Neto, Diógenes de

23 April 2014

Este estudo reúne os principais resultados de fluorescência estática e resolvida no tempo sobre a interação da porfirina meso-tetrakis (4-metilpiridil), na forma de base livre (TMPyP) e complexada com Zn2+ (ZnTMPyP), com vesículas de fosfolipídio. Adicionalmente foram utilizadas as técnicas de potencial zeta e espalhamento de luz dinâmico (DLS, do inglês \"dynamic light scattering\"). As vesículas de fosfolipídio foram formadas por dois conjuntos de fosfolipídios: saturados e insaturados. O primeiro grupo é formado pela mistura dos fosfolipídios zwiteriônico 1,2-dipalmitoil-sn-glicero-3-fosfocolina (DPPC) e aniônico 1,2-dipalmitoil-sn-3-glicero-[fosfo-rac-(1- glicerol)] (DPPG), a diferentes razões molares. Os estudos utilizando tais sistemas foram realizados abaixo (25oC) e acima (50oC) da temperatura de transição de fase gel-líquido cristalino destes fosfolipídios (~ 41oC). O segundo grupo é formado pela mistura dos fosfolipídios zwiteriônico 1-palmitoil-2-oleoil-sn-glicero-3-fosfocolina (POPC) e aniônico 1-palmitoil-2-oleoil-sn-glicero-3-fosfo(1-rac-glicerol) (POPG). Como a transição de fase destes dois fosfolipídios ocorre a temperaturas negativas, todos os experimentos foram realizados a 25oC (vesículas no estado líquido cristalino). Todos os sistemas foram preparados através do método de extrusão para a obtenção de vesículas grandes unilamelares (LUV, do inglês \"large unilamellar vesicles\"). As análises dos dados de fluorescência indicaram que a atração eletrostática entre os substituíntes (positivamente carregados) das porfirinas TMPyP e ZnTMPyP e o grupo das cabeças polares (camada de Stern) das vesículas de fosfolipídio desempenha um papel fundamental na associação da porfirina. A distribuição da TMPyP entre o meio aquoso (tampão) e as vesículas de fosfolipídio foi evidenciada pela coexistência de um tempo de vida de fluorescência mais curto (~ 5 ns) e outro mais longo (~ 9-11 ns), respectivamente. Baseado nos valores das constantes pré-exponenciais, estudos adicionais mostram que a distribuição acima é afetada pela concentração de sal na solução. Os resultados de supressão de fluorescência com o supressor iodeto de potássio (KI) indicaram que ambas porfirinas estão localizadas, preferencialmente, na região da camada de Stern. Este resultado foi confirmado pelos estudos de potencial zeta e de DLS, os quais mostraram uma neutralização parcial das cargas negativas na superfície das vesículas devido à associação da porfirina. / This study presents time-resolved and steady-state fluorescence results on the interaction of the meso-tetrakis (4-methylpyridil) porphyrin, in free base form (TMPyP), and complexed with Zn2+ (ZnTMPyP), with phospholipid vesicles. Zeta potential and dynamic light scattering (DLS) techniques were also used. Phospholipid vesicles were formed by two phospholipid systems: saturated and unsaturated. The first group is a mixture of zwiterionic dipalmitoyl-sn-glycero-3-phosphocoline (DPPC) and anionic 1,2-dipalmitoyl-sn-3-glycero-[phospho-rac-(1-glycerol)] (DPPG) phospholipids, at different molar ratios. Measurements were performed bellow (25oC) and above (50oC) the main gel-liquid crystalline phase transition temperature (~ 41oC). The second group is constituted by a mixture of zwiterionic 1-palmitoyl-2-oleoyl-sn-glycero-3-phosphocoline (POPC) and anionic 1-palmitoyl-2-oleoyl-sn-glycero-3-phospho(1-rac-glycerol) (POPG) phospholipids, at different molar ratios. Since the gel-liquid crystalline phase transition of these phospholipids occurs at a very low temperature value, all experiments were performed at 25oC (liquid crystalline state vesicles). All phospholipid systems were prepared through the extrusion method in order to obtain large unilamellar vesicles (LUV). The fluorescence data analyses indicated that the electrostatic attraction between the porphyrin substituents (positively charged) and the polar head groups of the phospholipid vesicles (Stern layer) plays an important role on the porphyrin binding affinity. The distribution of TMPyP between the aqueous medium (buffer) and the phospholipid vesicles was characterized by the coexistence of a shorter (~ 5 ns) and a longer (~ 9-11 ns) fluorescence lifetimes, respectively. Based on the pre- exponential values, additional time-resolved experiments showed a redistribution of the porphyrin at increasing salt concentration. The quenching studies, using potassium iodide (KI) as quencher, indicated that both TMPyP and ZnTMPyP are preferentially located at the Stern layer region. This result is in agreement with the zeta potential and DLS findings, which demonstrated a partial neutralization of the negative charges at the vesicle surface due to the porphyrin association.

dynamic light scattering

espalhamento de luz dinâmico

fluorescência estática

fluorescência resolvida no tempo

phospholipid vesicles

porfirina catiônica

potencial zeta

steady-state fluorescence

time-resolved fluorescence

vesículas de fosfolipídio

zeta potential

Mechanistic studies on the light-dependent NADPH:Protochlorophyllide Oxidoreductase and animal cryptochromes

Archipowa, Nataliya

January 2018

Nature uses sunlight either as energy source or as information carrier. Photoreception is achieved by two groups of specialised proteins: photo-enzymes that catalyse photoreactions and photosensors that initiate physiological functions. In the present work mechanistic studies were conducted on one representative of each group by using site-directed mutagenesis as well as stationary and time-resolved spectroscopy. The photo-enzyme NADPH:Protochlorophyllide Oxidoreductase (POR) catalyses the light-dependent C17-C18 double bond reduction of protochlorophyllide, including a hydride and a proton transfer, to produce chlorophyllide, the immediate precursor of chlorophyll. POR provides a unique opportunity to study the hydride transfer mechanism in detail. Three distinct intermediates, prior to product formation, were observed that were interpreted as electron and proton-coupled electron transfer reactions from NADPH indicating a sequential hydride transfer mechanism. An active-site mutant, POR-C226S, yields distinct different intermediates compared to POR wild type but ends in the same chlorophyllide stereoisomer most likely due to an altered protochlorophyllide binding. This work provides the first direct observation of a stepwise hydride transfer mechanism in a biological system. Cryptochromes (CRY) are so far defined as flavoprotein blue-light photosensors that regulate the circadian clock throughout nature and are suggested as the candidate magnetoreceptor in animals. Animal CRY are subdivided into two classes of proteins: the light-responsive Type I (invertebrates) and the light-independent Type II (mainly vertebrates). The molecular basis of their different roles in the circadian clock is still unknown. Animal Type I CRY are suggested to undergo conformational changes - required for induction of subsequent signalling cascades - induced by the change in the FAD redox state due to light absorption. The study shows that in contrast to Type I animal Type II CRY do not bind tightly FAD as a cofactor due to the lack of structural features and therefore provide the molecular basis for their different biological roles ruling out a direct photomagnetoreceptor function. Further, detailed studies on a fruit fly (Dm)CRY reveal that it does not undergo a photocycle as FAD release and Trp decomposition were observed. Thus, it is suggested that light is a negative regulator of DmCRY stability linking the initial photochemistry to subsequent dark processes leading to signal transduction on a molecular level.

540

Dynamika spinové polarizace v polovodičích / Dynamics of spin polarization in semiconductors

Janda, Tomáš

January 2012

In this work we study ultrafast laser-induced magnetization dynamics in samples of ferromagnetic semiconductor Ga1−xMnxAs with a nominal concentration of Mn within the range of x = 0,015-0,14. To get information about magnetization movement we use magneto-optic phenomena PKE and MLD in a time-resolved pump & probe experiment. Thorough analysis of the measured magneto-optical signal allows us to disentangle contributions due to angular movement of magnetization and due to demagnetization and to reconstruct 3D motion of magnetization vector without any numerical modeling. First we explain the basis of this experimental method and we demonstrate its utilization on the measured data. After that we study angular movement of magnetization vector and its dependence on the external magnetic field, excitation intensity and Mn concentration. The pump pulse helicity dependent and independent dynamics were treated separately. In the case of demagnetization we have been able to observe not only its intensity and Mn doping dependence but also the magnetic field dependence, which has not been reported so far in the literature.

propriétés magnétiques et structurales de fe/mnas/gaas(001) et dynamique photo-induite des transitions de phases dans mnas/gaas(001) / magnetic and structural properties of fe/mnas/gaas(001) and photoinduced phase transition dynamics in mnas/gaas(001)

Lounis, Lounès

23 November 2017

Cette thèse porte sur les propriétés magnétiques et structurales de MnAs/GaAs(001) et sur la dynamique photo-induite du système hétéroépitaxial Fe/MnAs/GaAs(001). MnAs présente une séquence inhabituelle de transitions de phases magnéto-structurales. En volume, α-MnAs est hexagonal et ferromagnétique (FM). A 313 K, il transite (1er ordre) vers β-MnAs, perd son ordre FM et devient orthorhombique. A 400 K, il transite (2nd ordre) vers γ-MnAs, hexagonale et paramagnétique. En couche mince épitaxiée sur GaAs(001), α- et β-MnAs coexistent entre 283 et 313K sous la forme de bandes auto-organisées avec alternance des phases ce qui permet l’émergence d’un champ magnétique dipolaire de surface. Ce champ permet de manipuler via la température, et sans champ magnétique appliqué, l’aimantation de Fe, ou encore localement via une impulsion laser femtoseconde. Des mesures ont été réalisées sur ce système par effet Kerr magnéto-optique (MOKE) et par diffusion résonante des rayons X (XRMS). La XRMS donne accès à l’évolution en température des bandes et à l’aimantation de chacune des couches (aux seuils L3 de Fe et de Mn). Il est montré que les cycles de chaque couche peuvent être obtenus aussi bien par MOKE que par XRMS grâce à la linéarité de la réponse MOKE. La dynamique structurale photo-induite de MnAs/GaAs(001) a aussi été étudiée par diffraction des rayons X résolue en temps sur des temps allant de la picoseconde à la microseconde. Ces résultats mettent en évidence l’excitation de phonons cohérents, la génération d’une onde de déformation, la nucléation de la phase γ et enfin la formation transitoire de bandes auto-organisées pendant la phase de refroidissement. Ces résultats ont été corrélés aux résultats sur le renversement de l’aimantation du fer dans Fe/MnAs et un mécanisme est proposé. / The subject of this thesis is the study of the magnetic and structural properties of MnAs/GaAs(001) and of the photoinduced phase transition dynamics in MnAs/GaAs(001). MnAs exhibits a peculiar sequence of magneto-structural phase transitions. In the bulk, α-MnAs is hexagonal and ferromagnetic (FM). At 313K, it transits (1st order) towards β-MnAs becoming orthorhombic and FM order is lost. At 400K, it transits (2nd order) towards γ-MnAs becoming paramagnetic and hexagonal. When MnAs is grown epitaxially on GaAs(001), α and β phases coexist in the form of self-organized stripes with alternating phases, which permits the appearance of a dipolar magnetic field close to the surface. This field allows the manipulation of the Fe magnetization via the temperature, without applying magnetic field, or locally via a femtosecond laser pulse. Measurements were made using magneto-optical Kerr effect (MOKE) and X-ray resonant scattering (XRMS). The XRMS gives access to the evolution of the stripes with the temperature and to the magnetization of each layer (at the L3 edge of Fe and Mn). Hysteresis cycles of magnetic layers can be obtained by XRMS and also by MOKE thanks to the linearity of the response. The photo-induced structural dynamics of MnAs/GaAs(001) was also studied by time-resolved X-ray diffraction from the picosecond to the microsecond timescales. The results evidence the excitation of coherent phonons, the generation of a strain wave, the nucleation of the γ phase, and finally the transient formation of self-organized stripes during the cooling phase. These results provide insight into the Fe magnetization reversal process in Fe/MnAs/GaAs(001) and a mechanism is proposed.

Transition magnéto-Structural

MnAs

Magnétisme

Xrms

Time resolved X-Ray diffraction

Magneto-Structural transition

MnAs

Magnetism

Xrms

530

Propriétés photophysiques des systèmes supramoléculaires bi- et multichromophoriques / Photophysical properties of bi- and multichromophoric supramolecule-based systems

Denisov, Sergey

13 November 2014

En utilisant les spectroscopies d'absorption UV-vis et d'émission stationnaire et résolue dans le temps (femto- et sub–nanoseconde, caméra à balayage de fente), nous avons étudié, au cours de cette thèse, les processus photophysiques au sein de différentes molécules et supramolécules. Les propriétés photophysiques de nouveaux complexes de Ru(II) polypyridine et de Ir(III) cyclométallé présentant un transfert d'énergie électronique réversible entre le noyau métallique et les chromophores organiques auxiliaires énergétiquement appariés (anthracène et pyrène) ont été analysées en détail. Les caractéristiques de la séparation de charge entre un donneur d'électron (OPV) et un accepteur (PB) à travers un pont d'oligoquinoline au sein de foldamères de longueurs croissantes ont été précisées dans une échelle de temps inférieure à la nanoseconde. De nouvelles sondes luminescentes à base de lanthanides ont été réalisées pour la détection en temps réel de l’ion Cu(I), leurs propriétés optiques étant modulées par effet «d’antenne» par le biais d'interactions cations-nuagePi. L'étude de sondes fluorescentes off-on en proche IR formées de colorantsBF2-AzaBODIPY fixés de manière covalente sur des nanoparticules (100 nm) polymériques a été réalisée, et étendue à de nouvelles sondes sensibles au pH émettant dans le proche IR. Des études de photoisomérisation ont été effectuées sur deux systèmes azobenzéniques capables de libérer/capturer des ions Ca(II) (azobenzène-éther«lasso», azobenzène-BAPTA) – l'impact de l'eau sur la photoisomérisation cis-trans d’hydroxychalcones a été mis en évidence dans CH3CN et H2O/CH3OH (v/v=1/1). / In the present work photophysical processes of different molecular and supramolecular systems were studied using steady-state and time-resolved femto- and sub-nanosecond (streak-camera detection) UV-vis absorption and emission spectroscopies. Detailed photophysical studies of novel Ru(II) polypyridine and cyclometalatedIr(III) complexes showing reversible electronic energy transfer between metallic core and auxiliary organic energetically-matched chromophores anthracene and pyrene, respectively were performed. Time-resolved characterization of charge separation between electron donor (OPV) and acceptor (PB) in the sub-nanosecond timescale through an oligoquinoline bridge in foldamers of increasing oligomeric length was carried out. Novel lanthanide-based luminescent probes were investigated for time-gated detection of Cu(I) ion, being modulated by an antenna effect through cation-pi interactions.The study on NIR fluorescent off-on probes, based on BF2-aza-BODIPY dyes, covalently attached to the surface of polystyrene 100 nm nanoparticles, along with related novel NIR pH-responsive fluorescence probes were conducted. Photoisomerization studies focused on azobenzene-based (azobenzene-lariat ether, azobenzene-BAPTA)Ca(II)-ion release/capture systems, while the impact of water on the cis−trans photoisomerizationof hydroxychalcones was studied in CH3CN and H2O/CH3OH (v/v=1/1).

Transfert d'électron photo-induit

Transfert d'énergie électronique

Photoisomerization

Absorption transitoire

Émission résolue dans le temps

Photoinduced electron transfer

Electronic energy transfer

Photoisomerization

Transient absorption

Time-resolved emission

Synthesis and characterisation of ZnO nanoparticles.An experimental investigation of some of their size dependent quantum effects

Jacobsson, T. Jesper

January 2010

<p>ZnO nanoparticles in the size range 2.5–7 nm have been synthesised by a wet chemical method where ZnO particles were grown in basic zinc acetate solution. The optical band gap increases when the size of the particles decreases. An empirical relation between the optical band gap given from absorption measurements, and particle size given from XRD measurements has been developed and compared to other similar relations found in the literature.</p><p>   Time resolved UV-Vis spectroscopy has been used to follow the growth of particles in situ in solution. The data show that the growth mechanism not can be described by a simple Oswald ripening approach and nor by an exclusive agglomeration of smaller clusters into larger particles. The growth mechanism is more likely a combination of the proposed reaction themes. The data also reveal that particle formation do not demand a heating step for formation of the commonly assumed initial cluster Zn₄O(CH₃COO)₆.</p><p>   Steady state fluorescence has been studied as a function of particle size during growth in solution. These measurements confirm what is found in the literature in that the visible fluorescence is shifted to longer wavelengths and loses in intensity as the particles grow. Some picosecond spectroscopy has also been done where the UV fluorescence has been investigated. From these measurements it is apparent that the lifetime of the fluorescence increases with particle size.</p><p>    The phonon spectrum of ZnO has been studied with Raman spectroscopy for a number of different particle sizes. From these measurements it is clear that there is a strong quenching of the phonons due to confinement for the small particles, and the only clearly observed vibration is one at 436 cm^-1 which intensity strongly increases with particle size.   </p>

ZnO

nanoparticles

quantum dots

Sol-gel

Time resolved UV-Vis spectroscopy

fluorescence

Raman

Phonon spectrum

Synthesis

XRD

Materials chemistry

Materialkemi

Inorganic chemistry

Oorganisk kemi