Investigation Of Phase Separation In Bulk Heterojunction Solar Cells Via Self-assembly Approach And Role Of Organic Fluorine In Design Of n-type Molecular Semiconductors

Siram, Raja Bhaskar Kanth

10 1900

The present thesis is focused on rational design and synthesis of π-conjugated donoracceptor-donor (D-A-D) type oligomers and D-A type copolymers. Thesis is organized in seven chapters, apart from introduction remaining six chapters are grouped into two parts (A and B). Part A deals with Chapters 2, 3, 4 and Part B contains chapters 5, 6 and 7. A brief discussion on the content of individual chapters is provided below. Chapter 1 discusses the introduction to organic solar cell with operating principles and effect of spinodal decomposition on stability of the devices is presented. The status and literature related to the improvement of life time of the organic solar cells by self-assembly approach has been explored. In addition, design and synthesis of the fluorine substituted π-conjugated organic semiconductors for n-type OFETs and OLED has been discussed. Part A This part of the thesis attempt to address some of the challenges listed below (1) Investigation of miscibility of binary components in bulk heterojunction solar cells through H-bonding approach. (2) Synthesis of new low band gap molecular semiconductors having H-bonding sites. (3) Fabrication of bulk heterojunction solar cell devices using these new molecules and exploring the photovoltaics performance. Chapter 2, donor-acceptor-donor (D-A-D) concept has been employed to design low band gap oligomers named as TTB. Barbiturate functional group has been utilized to explore the concepts of supramolecular chemistry. It is shown that, TTB molecule self-organizes via intermolecular H-bonding between barbituric acid units. Interactions between the oligothiophene subunits were also found to be important, affording nanoribbons that were observed by atomic force and transmission electron microscopy. The applicability of TTB for organic electronic applications was investigated by fabricating organic field-effect transistors (OFETs) and organic photovoltaic device. The crystalline nanoribbons were beneficial in understanding the phase morphology of PCBM and TTB blend. Chapter 3, the self-assemble property of TTB was disrupted by the substitution of methyl group on the nitrogen of the barbituric acid moiety. The optical and electrochemical properties of the new derivative have been investigated by UV-Visible spectroscopy, photoluminescence spectroscopy and cyclic voltammetry. Further investigations on the effect of self-assembly on organic solar cells were carried out by fabricating BHJ and OFET. The results proved that the self-assembly within the donor moieties led to complete phase separation between the donor and acceptor which had an adverse effect on the photovoltaic performance. Chapter 4, the conjugation of TTB was extended by the synthesis of two new copolymers by polymerizing with two oliogothiophene (terthiophene and benzobithiophene) derivatives with different donating strength. The investigation of photophysical and electrochemical properties of copolymers were studied by varying the donating strength. As we increase the donating strength of oligothiophenes, the intramolecular charge transfer band of DA copolymers was red shifted. Further, density functional theory (DFT) calculation of these materials was carried out to get insight into their photophysical properties. Part B This part of the thesis attempt to address some of the challenges listed below (1) Investigation of fluorine substituted organic semiconductos like 2,2’ bithiazole and pheanthroimidazole. (2) Synthesis of pentafluoro phenyl appended derivatives of 2,2’ bithiazole and pheanthroimidazole. (3) Fabrication of OFETs and OLEDs using these new molecules and elucidated the device performance with molecular structure. Chapter 5, pentafluorophenyl appended 2,2’-bithiazole derivatives were synthesized. The single crystal x-ray diffraction studies shows the unusual strong type-II F•••F interactions within the distance of 2.668 Å, at an angle of 89.14° and 174.15°. It also shows the usual type-I F•••F interaction within the distance of 2.825Å, at an angle of 137.38° and 135.93°. Upon bromination type-II Br•••Br interaction was observed and the packing was further stabilized by S•••Br interactions. The conjugation was further extended with different aromatic and heteroaromatic substituents and synthesized the star shaped structure. The band gap as well as the electronic energy levels was tuned by substituting various aromatic and heteroaromatic substituents. These star shaped derivatives shows electron mobilities in the order of 10-4 to 10-3cm2/Vs. Chapter 6, Novel D-A copolymers were synthesized by Stille condensation of electron acceptor fluorinated phenanthroimidazole with electron donors like terthiophene and benzobithiophene. Prior to that insoluble pentafluoro phenyl phenanthroimidazole was Nalkylated in presence of DMF which concurrently resulted in C-F activation of the pentafluoro phenyl moiety. As we increase the donor strength from benzobithiophene to terthiophene the absorbance spectra was red shifted from 446 nm to 482 nm in solution and 455 nm to 484 nm in solid state. The band gap of these copolymers was found to be 2.4 eV for PIBDT and 2.2 eV for PIDHTT from the absorbance spectra. The photoluminescence data shows that these materials are promising for the yellow colour as well as orange colour displays, of narrow wavelength range (FWHM 40 nm for PIBDT and 35 nm for PIDHTT), which can be achieved just by the manipulation of donor moieties in the copolymers. The preliminary electroluminiscence data shows high brightness of 888cd/m2 (orange luminescence) for PIDHTT and 410cd/m2 (yellow luminescence) for PIBDT. Chapter 7, Acenaphtho[1,2-b]quinoxaline based donor–acceptor type low band gap conjugated copolymers were synthesized by Stille coupling reaction with the corresponding oligothiophene derivatives. The optical properties of the copolymers were characterized by ultraviolet-visible spectrometry while the electrochemical properties were determined by cyclic voltammetry. The band gap of these polymers was found to be in the range of 1.8-2.0 eV as calculated from the optical absorption band edge. The intense charge transfer band in absorption spectra shows the significant effect of acceptor in the copolymers. X-ray diffraction measurements show weak π–π stacking interactions between the polymer chains. The OFET devices fabricated using these co-polymers showed dominant p-channel transistor behavior with the highest mobility of 1×10-3cm2/Vs.

Semiconductors

Heterojunction Solar Cells

Solar Cells

Organic Semiconductors

Oligomers - Synthesis

Conjugated Polymers

Copolymers - Synthesis

Molecular Semiconductors

Organic Solar Cells

Solar Cells - Phase Seperation

Oligothiophenes

Barbiturate Copolymers

Electrochemistry

Étude numérique des premières étapes d'agrégation du peptide amyloïde GNNQQNY, impliqué dans une maladie à prion

Nasica-Labouze, Jessica

08 1900

No description available.

fibres amyloïdes

amyloid fibrils

prion

GNNQQNY

agrégation de protéines

protein aggregation

nucléation

nucleation

polymorphisme

polymorphism

oligomères

oligomers

protofibres

protofibrils

Confinement d’oligomères π-conjugués dans des nanotubes de carbone mono-feuillets : intéractions, dynamique et structure / Confinement of π-conjugated oligomers inside single-walled carbon nanotubes : interaction, dynamics and structure

Lopes Selvati, Ana Carolina

16 December 2016

Ce travail est dédié à l’étude de l’encapsulation de molécules organiques photoactives dans des nanotubes de carbone mono-feuillets. L’effet de confinement sur les propriétés vibrationnelles , structurales, et les interactions entre les sous-systèmes est étudié en fonction de la taille des nanotubes. La première partie du manuscrit est consacrée à l’étude du confinement de diméthylquaterthiophènes dans les tubes. La dynamique vibrationnelle des molécules confinées est étudiée par diffusion inélastique des neutrons et par des simulations DFT. L’étude des interactions entre les deux sous-systèmes, en termes de transfert d’énergie et de transfert de charge, est réalisée en combinant des études de photoluminescence et de Raman. La nature des transferts de charge dépend de la taille du nanotube. Pour des tubes de petits diamètres (<1.1nm), un transfert de charge photo-induit est obtenu lorsque la longueur d’excitation correspond à l’absorption de la molécule. La deuxième partie est dédiée à l’étude de l’organisation structurale de molécules de phtalocyanine encapsulées à l’intérieur des nanotubes. Ce travail combine des études expérimentales par diffraction neutronique et spectroscopie Raman à pression ambiante et sous hautes pressions. Les études structurales sont confrontées à des simulations par dynamique moléculaire. / This work is dedicated to the study of the encapsulation of photoactive molecules within single wall carbon nanotubes. The confinement effect on vibrational, structural and interactions between host and guest is studied as a function of nanotube size. The first part of the manuscript is dedicated to the confinement of dimethyl quaterthiophene within carbon nanotubes. Vibrational dynamics for the encapsulated molecules is studied coupling neutron scattering and DFT simulations. Interactions molecule/nanotube, in terms of energy transfer and charge transfer are studied combining photoluminescence and Raman spectroscopies. The nature of charge transfers depends on the size of the nanotube. For small diameters (>1,1nm) a photoinduced charge transfer is obtained when the excitation wavelength matches the absorption of the molecule. The second part of the manuscript focuses on the structural organization of encapsulated phthalocyanine molecules. This work combines neutron diffraction and Raman spectroscopy experimental studies at room and high pressures. Structural studies are discussed together with molecular dynamics simulations.

Nanotubes de carbone mono-Feuillets

Confinement

Spectroscopie Raman

Oligomères pi-Conjugués

Diffusion neutronique

Single-Walled carbon nanotubes

Confinement

Raman spectroscopy

Pi-Conjugated oligomers

Neutron scattering

Synthèse chimique de protéines pour l'étude structurale et fonctionnelle de fibres amyloïdes / Chemical protein synthesis to study structure and function of amyloid fibers

Boehringer, Régis

30 January 2018

Les fibres amyloïdes sont souvent à l’origine de nombreuses maladies dégénératives telles que la maladie d’Alzheimer ou la maladie de Parkinson. La formation de ces plaques insolubles est due à une agrégation anormale de protéines. Les études structurales et biologiques des amyloïdes sont hautement complexes du fait de leur organisation sous forme de superstructures unidirectionnelles composées d’une infinité d’unités peptidiques ou protéiques, mais aussi à cause de leur hétérogénéité conformationnelle et polymorphique. Au cours de ces différents travaux de thèse en collaboration avec différents laboratoires d’analyses structurales, nous avons développé plusieurs outils de synthèse tant pour la formation de différents polymorphes de fibres amyloïdes que pour la formation d’espèces oligomériques de tailles conséquentes qui sont un challenge du point de vue synthétique et méthodologique mais aussi pour leur caractérisation. Ces différentes avancées permettront de mieux comprendre les mécanismes de formation de fibres amyloïdes et de préparer des échantillons homogènes pour les analyses structurales et biologiques. L’étude de modifications chimiques telles que la N-méthylation ou les polypeptides D est également un enjeu important pour l’élucidation des interactions protéine-protéine vis-à-vis des structures amyloïdogéniques et ainsi permettre l’élaboration de nouveaux composés inhibant la formation de plaques amyloïdes. / Amyloid fibrils are associated with many human disorders including Alzheimer’s or Parkinson’s diseases. The formation of insoluble plaques is the result of protein misfolding and aggregation due to abnormal conformational isomerization of the involved protein. The structural and biological studies of amyloids are highly complex. In this thesis, we report on the development of different synthetic methodologies for the preparation of distinct amyloid fibril polymorphs as homogeneous samples for structural and biological studies. We also synthesized covalently-tethered oligomers composed of nine copies of an amyloidogenic peptide segment, where we were able to control the self-assembly of the structure by insertion of N-methylated amino-acids and to obtain monomeric oligomers mimicking a cross section of an amyloid fibril. We also report on the chiral recognition of L-peptides and L-proteins towards corresponding D-enantiomers during amyloid formation. Moreover, we studied various N-methylated peptide analogues to suppress amyloid growth. Overall, the results obtained in this thesis pave the way towards rational design of peptide-based inhibitors and diagnostics against amyloid propagation.

Fibres amyloïdes

Synthèse chimique de protéines

Reconnaissance chirale

Polymorphisme

Oligomère

Inhibition

Amyloid fibrils

Chemical protein synthesis

Chiral recognition

Polymorphism

Oligomers

Inhibition

572.6

Proteomics studies of protein homeostasis and aggregation in ageing and neurodegeneration

Vecchi, Giulia

January 2018

Upon ageing, a progressive disruption of protein homeostasis often leads to extensive protein aggregation and neurodegeneration. It is therefore important to study at the proteome level the origins and consequences of such disruption, which so far have remained elusive. Addressing this problem has recently become possible by major advances in mass spectrometry-based (MS) proteomics, which allows the identifications and quantification of thousands of proteins in a variety of biological samples. In the first part of this thesis, I analyse proteome-wide MS data for the nematode worm C. elegans upon ageing, in wild type (WT), long-lived and short-lived mutant strains. By comparing the total abundance and the soluble abundance for nearly 4000 proteins, I provide extensive evidence that proteins are expressed in adult worms at levels close to their solubility limits. With the use of sequence-based prediction tools, I then identify specific physico-chemical properties associated with this age-related protein homeostasis impairment. The results that I obtained reveal that the total intracellular protein content remains constant, in spite of the fact that the proteome undergoes wide remodeling upon ageing, resulting into severe protein homeostasis disruption and widespread protein aggregation. These results suggest a protein-dependent decrease in solubility associated with the protein homeostasis failure. In the second part of the thesis, I determine and classify potential interactions of misfolded protein oligomers with other proteins. This phenomenon is widely believed to give rise to cytotoxicity, although the mechanisms by which this happens are not fully understood. To address this question, I process and analyse MS data from structurally different oligomers (toxic type A and nontoxic type B) of the protein HypF-N, incubated in vitro with proteins extracted from murine cell cultures. I find that more than 2500 proteins are pulled down with the misfolded oligomers. These results indicate that the two types of oligomers interact with the same pool of proteins and differ only in the degree of binding. Functional annotation analysis on the groups reveals a preference of the oligomers to bind proteins in specific biological pathways and categories, including in particular mitochondrial membrane proteins, RNA-binding proteins and molecular chaperones. Overall, in this study I complement the powerful and high-throughput experimental approach of MS proteomics with bioinformatics analyses and prediction algorithms to define the physical, chemical and biological features of protein homeostasis disruption upon ageing and the interactome of misfolded oligomers.

Caractérisation de chlorhydrates d’aluminium et étude de leurs interactions avec des protéines par électrophorèse capillaire / characterization of aluminum chlorohydrates and study of their interactions with proteins by capillary electrophoresis

Ouadah, Nesrine

13 April 2018

Les sels d’aluminium sont utilisés par l’industrie cosmétique comme actifs anti-transpirants pour limiter la sudation. Leur mécanisme d’action, lié en partie à leur structure très complexe, est encore mal élucidé. Le développement de nouveaux outils de caractérisation pour améliorer la compréhension de leur action anti-transpirante au niveau moléculaire est donc crucial, pour, à terme, optimiser leur utilisation, voire pouvoir les remplacer par d’autres composés actifs. L’objectif de ce travail de thèse a été, d’une part, de caractériser, par une nouvelle approche analytique, les oligomères contenus dans les chlorhydrates d’aluminium (ACH) utilisés comme agents anti-transpirants et, d’autre part, d’étudier les interactions entre ces ingrédients cosmétiques et des protéines modèles. Dans une première partie, une méthode en électrophorèse capillaire de zone (CZE) a été développée pour la séparation, la caractérisation et l’analyse quantitative de la distribution des oligomères d’ACH (notamment, Al13 et Al30). Les choix du contre-ion, de la force ionique et du greffage du capillaire se sont révélés cruciaux pour le succès de la séparation, la stabilité des espèces au cours du processus électrophorétique et la répétabilité / reproductibilité de la séparation. L’optimisation des paramètres de séparation a permis d’étendre l’application de cette méthode à l’analyse d’autres espèces oligomères et colloïdales de l’aluminium, et de mettre en place un couplage en ligne avec l’analyse de la dispersion de Taylor (TDA). L’isotachophorèse capillaire (ITP) a également été explorée pour l’analyse d’échantillon à des concentrations élevées en ACH, se rapprochant de celles des formules anti-transpirantes. Les résultats obtenus montrent qu’il est possible d’analyser des échantillons jusqu’à 40 g/L en ACH. Enfin, le mécanisme d’obstruction du canal sudoripare semblant impliquer des phénomènes de complexations entre les oligomères d’aluminium et des protéines de la sueur lors de l’application de l’antitranspirant, l’enjeu du dernier volet de la thèse a été de développer une méthode en électrophorèse capillaire d’affinité (ACE) pour l’étude des interactions entre ACH et des protéines modèles (BSA et lysozyme). Pour cela l’électrolyte utilisé en ACE est uniquement constitué de ligands (ACH), sur une gamme de concentrations élevée (jusqu’à 50 g/L), afin de se rapprocher des conditions d’application. D’un point de vue analytique, le défi de ce travail a été de corriger les mobilités électrophorétiques des protéines des paramètres expérimentaux variant avec la concentration en ACH (échauffement par effet Joule, viscosité, état de charge de la protéine en fonction du pH, force ionique). Il a été possible de mettre en évidence des différences quantitatives de comportement électrophorétique traduisant des différences d’interaction entre les deux protéines modèles étudiées (BSA et lysozyme) et les ACH. / Aluminum chlorohydrates (ACH) are used by the cosmetics industry as antiperspirant active ingredients to limit sweating. Their mechanism of action, is still poorly understood. The development of new characterization tools to improve the understanding of their antiperspirant action at the molecular level is therefore crucial, to ultimately optimize their use, or even to replace them with other active compounds. The purposed of this work, was to characterize by a new analytical approach the oligomers contained in ACH and to study their interactions with model proteins. In a first part, a method was developed by capillary electrophoresis zone (CZE) for the separation, characterization and quantitative analysis of ACH oligomers (in particular Al13 and Al30). The choice of counter-ion, ionic strength and capillary coating was crucial for the success of the separation, the stability of the species during the electrophoretic process and the repeatability / reproducibility of the separation. The optimization of the separation conditions has made it possible to the separation of other oligomeric and colloidal species of aluminum, and to set up an on-line coupling of CZE to Taylor dispersion. analysis (TDA). Capillary isotachophoresis (ITP) was also explored for ACH analysis at high concentrations, close to those used in antiperspirant formulations. It was shown that it is possible to analyze samples up to 40 g / L in ACH. Finally, interactions of ACH with model proteins (BSA and lysozyme) were studied by capillary affinity electrophoresis (ACE) to shed more light on the phenomena of complexation leading to the obstruction of the sweat duct. The electrolyte used in ACE consists solely of ligands (ACH), at relatively high concentrations (up to 50 g / L), in order to mimic the conditions of application. From an analytical point of view, the challenge of this work was to correct the electrophoretic mobilities of the proteins from the experimental parameters varying with the concentration ACH (Joule heating, viscosity, state of charge of the protein as a function of the pH, ionic strength). It was possible to quantitatively demonstrate differences in the interactions between ACH and the two studied model proteins (BSA and lysozyme).

Électrophorèse capillaire

Antitranspirant

Oligomères d’aluminium

Chlorhydrates d’aluminium

Interaction avec des protéines

Capillary electrophoresis

Antiperspirant. aluminum oligomers

Aluminum chlorohydrates

Protein interaction

Capillary affinity electrophoresis

Ionic strength dependence

Antibody Based Diagnostic and Therapeutic Approach for Alzheimer's Disease

January 2014

abstract: Alzheimer's disease (AD) is the most common form of dementia leading to cognitive dysfunction and memory loss as well as emotional and behavioral disorders. It is the 6th leading cause of death in United States, and the only one among top 10 death causes that cannot be prevented, cured or slowed. An estimated 5.4 million Americans live with AD, and this number is expected to triple by year 2050 as the baby boomers age. The cost of care for AD in the US is about $200 billion each year. Unfortunately, in addition to the lack of an effective treatment or AD, there is also a lack of an effective diagnosis, particularly an early diagnosis which would enable treatment to begin before significant neuronal damage has occurred. Increasing evidence implicates soluble oligomeric forms of beta-amyloid and tau in the onset and progression of AD. While many studies have focused on beta-amyloid, soluble oligomeric tau species may also play an important role in AD pathogenesis. Antibodies that selectively identify and target specific oligomeric tau variants would be valuable tools for both diagnostic and therapeutic applications and also to study the etiology of AD and other neurodegenerative diseases. Recombinant human tau (rhTau) in monomeric, dimeric, trimeric and fibrillar forms were synthesized and purified to perform LDH assay on human neuroblastoma cells, so that trimeric but not monomeric or dimeric rhTau was identified as extracellularly neurotoxic to neuronal cells. A novel biopanning protocol was designed based on phage display technique and atomic force microscopy (AFM), and used to isolate single chain antibody variable domain fragments (scFvs) that selectively recognize the toxic tau oligomers. These scFvs selectively bind tau variants in brain tissue of human AD patients and AD-related tau transgenic rodent models and have potential value as early diagnostic biomarkers for AD and as potential therapeutics to selectively target toxic tau aggregates. / Dissertation/Thesis / Doctoral Dissertation Chemical Engineering 2014

Biomedical engineering

Chemical engineering

Alzheimer's Disease

atomic force microscopy (AFM)

biomarker

phage display biopanning

Single Chain Variable Fragments (scFvs)

tau oligomers

Synthèse et caractérisation des oligomères et polymères Ä-conjugués nanostructurés pour applications en photovoltaïque / Synthesis and characterisation of Pi-conjugated oligomers and polymers for applications in photovoltaic cells

Yahya, Wan Zaireen Nisa

12 November 2012

Les cellules photovoltaïques organiques ont fait l'objet d'un intérêt croissant au cours de ces dernières décennies car elles offrent un grand potentiel pour une production d'énergie renouvelable à faible coût. Afin d'obtenir des cellules solaires organiques à haut rendement de conversion d'énergie, beaucoup de recherches se focalisent sur les matériaux ayant des capacités à absorber la lumière efficacement. Dans ce contexte, le présent travail se concentre sur la conception et le développement de nouveaux matériaux donneurs d'électrons (oligomères et polymères) comme matériaux absorbant de la lumière basée sur l'approche « Donneur-Accepteur » alternant des segments riches en électron (donneur d'électron) et des unités pauvres en électron (accepteur d'électron). Trois séries d'unités riches en électron ont été étudiées: oligothiophènes, fluorène et indacenodithiophene. L'unité fluorénone est la principale unité « accepteur d'électron » étudiée. Une comparaison directe avec le système basé sur l'unité benzothiadiazole comme accepteur d'électron est également rapportée. Trois méthodes principales de synthèse ont été utilisées: polymérisation oxydante par le chlorure de fer (III), et les couplages croisés au palladium de type Suzuki ou de Stille. Les études spectroscopique UV-Visible en absorption et en photoluminescence sur ces oligomères et polymères ont démontré la présence de complexes à transfert de charges permettant d'élargir le spectre d'absorption. Les oligomères et les polymères possèdent des faibles largeurs de bande interdite de 1,6 eV à 2 eV. Les systèmes ayant des unités fluorénones présentent des spectres d'absorption étendus allant jusqu'à 600-700 nm, tandis que les systèmes ayant des unités benzothiadiazoles présentent des spectres d'absorption allant jusqu'à 700- 800 nm. La nature des bandes de complexes à transfert de charge se révèle d'être dépendant de la force de respective des unités « donneur d'électrons » et des unités « accepteur d'électrons ». Les niveaux d'énergies HOMO et LUMO des oligomères et les polymères sont déterminés par des mesures électrochimiques. Les polymères à base de fluorène possèdent des niveaux d'énergie HOMO les plus bas. Ces polymères testés en mélange avec les fullerenes PCBM en cellules photovoltaïques ont démontré des valeurs élevées de tension en circuit ouvert (Voc) proche de 0,9 V. Tous les oligomères et les polymères ont été testés dans des dispositifs photovoltaïques et ont montré des résultats encourageants avec des rendements de conversion allant jusqu'à 2,1 %. Ce sont des premièrs résultats obtenus après seulement quelques optimisations (ratios oligomères ou polymères : fullerènes et recuit thermique). Ce travail prometteur permet ainsi d'envisager des résultats plus élevés dans le futur. / Organic photovoltaic (OPV) cells have been a subject of increasing interest during the last decade as they are promising candidates for low cost renewable energy production. In order to obtain reasonably high performance organic solar cells, development of efficient light absorbing materials are of primary focus in the OPV field. In this context, the present work is focused on the design and development of new electron donor materials (oligomers and polymers) as light absorbing materials based on “Donor-Acceptor” approach alternating electron donating group and electron withdrawing group. Three main families of electron donating group are studied: oligothiophenes, fluorene and indacenodithiophene. Fluorenone unit is the principal electron withdrawing group studied and a direct comparison with the system based on benzothiadiazole unit as electron withdrawing unit is also provided. Three main synthetic methods were employed: oxidative polymerization mediated by Iron (III) chloride and Palladium cross-coupling reactions according to Suzuki coupling or Stille coupling conditions. Spectroscopic studies on absorption and photoluminescence have demonstrated the presence of characteristic charge transfer complex in all the studied D-A oligomers and polymers allowing the extension of the absorption spectrum. The D-A oligomers and polymers have shown an overall low optical band gap of 1.6-2 eV with absorption spectra up to 600 to 800 nm. The nature of the charge transfer complex transitions bands were found to be depending on the strength of the electron donating unit and the electron withdrawing unit. Furthermore molecular packing in solution and in solid state has also demonstrated to contribute to extension of absorption spectrum. The HOMO and LUMO energy levels of the oligomers and polymers were determined by electrochemical measurements. Fluorene-based polymers have shown low lying HOMO energy levels, and these polymers demonstrate high open circuit voltage (Voc) in photovoltaic cell when combined with fullerenes derivatives PCBM with Voc values close to 0.9 V. The oligomers and polymers tested in photovoltaic devices have shown promising results with the highest power conversion efficiency obtained of 2.1 % when combined with fullerenes PCBMC70. These results were obtained after only limited numbers of device optimizations such as the active materials ratios and thermal annealing. Therefore further optimization of devices may exhibit higher power conversion efficiencies.

Photovoltaïques organiques

Oligomères et polymères pi-conjugués

Nanostructuration

Électronique organique

Organic photovoltaic

Conjugated oligomers and polymers

Self assembly molecules

Electronic organic

Bulk heterojunction solar cells

Interaction du peptide beta amyloïde avec les membranes plasmiques cellulaires / Interaction of beta amyloid peptide with plasma membranes

Gilson, Virginie

05 July 2013

La maladie d’Alzheimer (MA) est une maladie neurodégénérative du système nerveux central qui se caractérise notamment par l’accumulation de peptide beta-amyloïde (Aβ) dans le tissus nerveux. Dans la première partie de cette thèse nous avons montré que l’interaction des oligomères Aβ1-42 de haut poids moléculaire avec la membrane plasmique des cellules PC12 différenciées ou des cellules nerveuses (neurones et astrocytes primaires) provoque des variations de la [Ca2+]i dépendant de l’activation des récepteurs NMDA. Dans la seconde partie nous avons montré qu’une pré-exposition des cellules PC12 et des cellules nerveuses à de faibles concentrations de peptide Aβ module l’interaction ultérieure des oligomères avec la membrane plasmique. Enfin dans le cadre d’une collaboration avec l’entreprise Innovative Health Diagnostics (IHD) nous avons participé à la caractérisation d’une sonde amyloïde fluorescente développée pour réaliser des tests de détection de la MA à partir d’échantillons sanguins. / Alzheimer’s disease (AD) is a neurodegenerative disease of the central nervous system which is characterized in particular by the accumulation of beta amyloïde peptide (Aβ) in nerve tissues. In the first part of this thesis we showed that the interaction of high molecular weight Aβ1-42 oligomers with the plasma membrane of differenciated PC12 or nerve cells (neurons and astrocytes) triggers variations of their depending on the activation of the NMDA receptors. In the second part we showed that a pre-exposure of PC12 and nerve cells with low concentrations Aβ1-42 of modulates the later interaction of oligomers with the plasma membrane. Finally in collaboration with the company Innovative Health Diagnostics (IHD) we participated in the characterization of a fluorescent amyloid probe developed to realize detection test of AD from blood samples.

Maladie d’Alzheimer

Peptide beta amyloïde

Oligomères

Récepteur NMDA

Culture primaire de neurones

Cellules PC12

Alzheimer’s disease

Beta amyloid peptide

Oligomers

NMDA receptor

Neuronal primary culture

PC12 cells

572.4

616.83

Estudo espectroscópico da dinâmica molecular e empacotamento em semicondutores orgânicos / Spectroscopic study of molecular dynamics and packing in organic semiconductors

Oigres Daniel Bernardinelli

22 July 2011

Neste trabalho estudamos a dinâmica molecular e o empacotamento em semicondutores orgânicos com diferentes tamanhos de cadeias conjugada usando uma estratégia de multi-técnicas, em particular Ressonância Magnética Nuclear (RMN), espalhamento de Raios-X de alto ângulo (WAXS), Calorimetria Exploratória Diferencial (DSC), espectroscopia Raman e espectroscopias Ópticas de absorção UV-Vis e fluorescência. Nestes estudos utilizamos oligômeros de fluorenos, com 3, 5 e 7 unidades repetitivas e copolímeros multibloco conjugados/não-conjugados com as unidades conjugadas constituídas por unidades de fenileno de vinileno (PV) e as não-conjugadas formadas por unidades metilênicas. No estudo com oligômeros, foi mostrado que a capacidade e a forma de ordenamento das cadeias dependem do número de unidades repetitivas, com o Pentâmero possuindo uma tendência muito maior de cristalização. Essa conclusão foi suportada por cálculos teóricos ab-initio, que mostraram que a conformação de menor energia do pentâmero favorece as interações intercadeias e, portanto, o ordenamento de longo alcance. Os resultados referentes aos estudos de dinâmica molecular corroboraram essas características e mostraram que a ativação dos movimentos moleculares nas fases amorfas dos oligômeros são predominantemente dependentes dos comprimentos das cadeias oligoméricas, em concordância com o comportamento encontrado para as suas Tg´s. No estudo referente aos copolímeros multiblocos, foi encontrado que a presença dos grupos espaçadores alifáticos inibem a forte tendência de cristalização das unidades de PV, porém não impedem a agregação dessas unidades. Foi verificado que, a dispersão de tamanhos das unidades agregadas afeta fortemente as características de emissão dos copolímeros, onde a emissão nas cadeias maiores é privilegiada. No que diz respeito a dinâmica molecular, foi observado que a presença de movimentos na região alifática contribui para o aparecimento de processos de relaxação não radiativos o qual inibem a emissão dos copolímeros e provocam alargamento das bandas vibrônicas. Por fim, foi observado que movimentos isotrópicos das cadeias de PV são responsáveis pela transição vítrea dos copolímeros, sendo que as energias necessárias para ativar esses movimentos aumentam com o tamanho da cadeia. Portanto, de forma geral, nossos resultados indicam que mesmo em sistemas com comprimento de cadeias muito bem controlados, as fortes interações intermoleculares presentes em polímeros conjugados, podem tornar a morfologia em estado sólido desses sistemas bastante complexa, sendo que muitas das propriedades ópticas (e provavelmente também elétricas) são afetadas pela forma de empacotamento, desordem conformacional e térmica, além da própria constituição das cadeias. / In this dissertation we present a study of the molecular dynamics and packing in organics semiconductor with different conjugated chains lengths using a of multi-techniques approach, in particular, Nuclear Magnetic Resonance (NMR), Wide Angle X-ray Scattering (WAXS), Differential Scanning Calorimetry (DSC), Raman spectroscopy, UV-Vis absorption and fluorescence spectroscopy. The studies were carried-in fluorene oligomers with 3, 5 and 7 repeat units and multi-block conjugated/non-conjugated copolymers with the conjugated part formed by phenylene-vinylene units (PV) and the non-conjugated block formed by methylene units. Concerning the oligomers studies, it was shown that the ability of the chain to form ordered domains as well as the domain structure depend on the number of repeat units, with the pentamer having a higher tendency to crystallization. This conclusion was supported by theoretical ab-initio calculations, which showed that the pentamer conformation favors inter-chain interactions and therefore long-range ordering. The molecular dynamics studies support these characteristics and showed that the activation of molecular motions in oligomers amorphous phase are predominantly dependent on the oligomeric chain lengths, in agreement with the behavior observed for their glass transitions (Tg´s). In the study concerning the multi-block copolymers, it was found that presence of the aliphatic chains inhibit the strong tendency to crystallization of the PV units, but do not prevent their aggregation. It was found that the dispersion in aggregated units sizes strongly affects the copolymers emission, with the emission of larger chains being privileged. Regarding the molecular dynamics, we observed that the presence of motion on aliphatic region contributes to the appearance of non-radiative relaxation processes that inhibit the emission of the copolymers and produce broadening of the vibronic bands. Finally, we observed that isotropic motions of the PV chains are responsible for the copolymers glass transition and the energy required to activate these movements increase with length of the chain. In summary, our results indicate that even in systems with well controlled chains length, the strong intermolecular interactions present in conjugated polymers, can make the solid state morphology of these systems quite complex, which may affect many optical (and probably electric) properties are affected by the packaging structure, thermal and conformational disorder, in addition to the constitution of the chains composition.

Dinâmica molecular

Oligômeros de fluorenos

Propriedades ópticas

Ressonância magnética nuclear

Semicondutores orgânicos

Fluorene oligomers

Molecular dynamics

Nuclear magnetic resonance

Optical properties

Organic semiconductor