Global ETD Search

651	Titania Nanostructures for Photocatalytic and Photovoltaic Applications Chaudhary, Aakanksha January 2015 (has links) (PDF) Titania has been the focus of attention for several decades owing to its chemical stability, non-toxicity, inexpensiveness and robust surface chemistry. Its technological applications include use in diverse areas such as photocatalytic reactors, antibacterial coatings, dye sensitive solar cells (DSSC) and more recently the perovskite solar cells to name a few. All of these applications are based on the ability to inject or generate electronhole pairs in titania and transport them to a suitable interface at which they are ejected to either engender a reaction as in photocatalysis or drive a load as in photovoltaics. From a technological perspective it is also important that such science be achieved and controlled in supported titania structures. The research reported in this thesis, thus, started with the development of a process for obtaining adherent titania films by oxidation of sputtered Ti films on stainless steel, a very commonly used substrate. Challenges that had to be overcome included the need to oxidize titanium to obtain the right phase mixture while preventing film cracking or delamination due to compressive stresses generated during anodic oxidation of Ti. During this process of obtaining nanostructured TiO2 through anodization, it was serendipitously discovered that planar TiO2 films obtained by oxidation of sputtered Ti films did significantly better than anodized nanoporous titania in bactericidal studies. This was then replicated in organic dye degradation studies. Analysis of the material showed that this improved performance was due to the unintentional contamination during sputtering by Cu, Zn, Mo possibly due to arcing across brass contacts. This quaternary system was then systematically explored and it was shown that an optimal metastable composition in the Ti- Cu-Mo oxide ternary system performs the best. DFT studies showed that this was due to introduction of shallow and deep states in the band gap that, depending on the level of dopants, either enhances carrier lifetimes or leads to recombination. In continuation of this work on supported titania structures by oxidation of Ti, a novel photoanode for use in dye sensitized photovoltaics was developed by oxidation of Ti foam. This results in an interconnected 3-D network of TiO2 that possess at its core a network of Ti. Such architecture was designed to provide a large surface area for anchoring the sensitizer while simultaneously reducing the distance that charge carriers have to travel before reaching the ohmic contacts to prevent recombination losses. The thesis discusses the preparation of such anodes, the properties of the 3-D oxide and cells, with up to 4% efficiency, developed using such anodes. Reasons for such behaviour and avenues for further exploration to improve cell efficiency will also be discussed. Titanium Nanostructures Photocatalysis Photovoltaics Nanostructued Titanium Dioxide Films Photovoltaic Devices Dye Sensitized Solar Cells (DSSC) Nanostructured Titanianium Oxide Titanium Photoanodes Nanostructured Photocatalytic Titania Photoenergy Adherent Titania Films Nanostructured TiO2 Titania Nanostructures Materials Science
652	Systèmes modèles donneur accepteur pour le photovoltaïque organique étudiés par microscopie à sonde locale / Model Donor-Acceptor Systems for Organic Photovoltaics Investigated by Scanning Probe Microscopy Fuchs, Franz 25 September 2014 (has links) Pour cette thèse, des systèmes donneur-accepteur (DA) modèles pour le photovoltaïque organique ont été étudiés par microscopie à force atomique en mode non contact (nc-AFM) et microscopie à sonde de Kelvin (KPFM). Ces systèmes DA présentent une structure et des propriétés électroniques mieux contrôlées que dans la plupart des hétérojonctions DA en volume.Afin, d'étudier les propriétés optoélectroniques d'architectures DA présentant une séparation de phase à l'échelle de la dizaine de nanomètres, il est indispensable d'optimiser la résolution des modes nc-AFM/KPFM. Dans ce travail, l'influence du régime d'interaction pointe-surface sur les mesures a été étudiée dans le cas d'auto-assemblages de P3DDT sur substrat HOPG. Nous avons ainsi démontré que l'imagerie dans le régime d'interaction à courte portée améliore non seulement la résolution latérale, mais permet également de réaliser des mesures de hauteur plus réalistes.Ensuite, un système DA à base de FG1:[70]PCBM a été étudié. Pour ce mélange DA, la nanostructure et l'échelle de la séparation de phase peuvent être ajustées grâce aux propriétés cristal liquide du composé donneur FG1. Les potentiels mesurés dans le noir sont consistants avec la morphologie attendue en surface et en volume. La relation entre le photo-potentiel de surface (SPV) et le régime d'interaction pointe-surface a pu être précisément analysée. Une résolution optimale est obtenue dans les images de SPV en travaillant près du seuil de dissipation.Enfin, une nouvelle génération de diades comprenant des groupements donneur et accepteur a été étudiée. La nature de l'auto-assemblage sur HOPG a été établie sur la base d'études comparatives de microscopie à effet tunnel et de nc-AFM, avec le support de simulations en mécanique et dynamique moléculaire. Les mesures de photo-potentiel de surface ont ensuite permis de démontrer qu'il était possible d'étudier les mécanismes de photo-génération des porteurs jusqu'à l'échelle de la mono-couche moléculaire. / During this thesis, model donor-acceptor (DA) systems for organic photovoltaics have been studied by non-contact atomic force microscopy (nc-AFM) and Kelvin probe force microscopy (KPFM). To enhance the understanding of the optoelectronic processes on the nanoscale, DA systems with better defined structural and electronic properties than the one of most bulk heterojunction blends (BHJ), have been studied.With DA phase-separations of below 10nm in organic photovoltaic systems, the highest possible resolution has to be achieved by KPFM to investigate optoelectronic processes. It has been shown that nc-AFM/KPFM measurements in the regime of short range (SR) forces can increase imaging resolution. In preparation of such investigations, the influence of the interaction regime on the topographic measurement via KPFM has been studied for a self-assembly of P3DDT on HOPG. It is demonstrated that imaging in the SR-regime not only increases the lateral resolution, but also assures a correct topographic height values.In a next step, DA blends of FG1:[70]PCMB have been studied by KPFM. For these BHJs, the structure and the scale of the DA phase-separation can be tuned via the liquid crystal behavior of the donor FG1. The in dark potential contrasts are consistent with surface and bulk morphology. The relationship between the surface photovoltage (SPV) and the tip-sample interaction regime has been analyzed. An optimal resolution for SPV imaging is obtained when measuring next to the onset of dissipation.Finally, a new generation of DA dyad with donor and acceptor moieties has been studied. Its self-assembly on HOPG has been determined via a comparative study by scanning tunneling microscopy and nc-AFM plus molecular mechanics and dynamics simulations. By KPFM the charge carrier generation and collection has been analyzed down to the level of a single molecular layer. A clear relationship between the dyads' molecular assembly and their photovoltaic properties can be established. AFM non contact Microscopie à Sonde de Kelvin Matériaux Pi-Conjugués Interfaces Donneur-Accepteur Microscopie à Effet Tunnel Photovoltaïque Organique Non-contact AFM Kelvin Probe Force Microscopy Pi-Conjugated Materials Donor-Acceptor Interfaces Scanning Tunneling Microscopy Organic Photovoltaics 530
653	Srovnání rurálních a urbánních oblastí v Jihočeském regionu podle využití podpory EU pro alternativní zdroje energie / Confrotation of an alternative energy in rural and urban teritorry in south bohemia region GLASER, Tomáš January 2011 (has links) This diploma work refers to the subject the Confrotation of an alternative energy in rural and urban teritorry in south bohemia region and the real potential of EU support for the use of alternative sources of alternative energy. Comparing the situation in urban and rural population and the strategy of alternative energy sources.
654	A Meta-Analysis on Solar Cell Technologies / A Meta-Analysis on Solar Cell Technologies Mohammadi, Farid January 2017 (has links) The objective of this study is analysing the characteristics of five different solar cell technologies regarding their efficiency, fill factor, cost and environmental impacts and comparing their improvement records over years considering their efficiency. The five solar cell technologies of interest are amorphous silicon, monocrystalline silicon, polycrystalline silicon, cupper indium gallium selenide thin film and cadmium telluride thin film. The structure and manufacturing process of each of cell technologies were discussed. The study was conducted by the aid of available scientific reports regarding the electrical characteristics of different solar cell technologies. The extracted information regarding efficiency rate and fill factor was analysed using graphs and significant findings are discussed. The five technologies are also compared regarding their cost and ease of fabrication and their impacts on environment and recycling challenges. The result of this study is suggesting the most promising technology that may be the optimal option for further investment and research. Solar cell Photovoltaics Amorphous silicon Monocrystalline silicon Polycrystalline silicon Cupper indium gallium selenide Cadmium telluride Thin film Efficiency Fill factor Annan elektroteknik och elektronik
655	Etude des transferts thermo-convectifs dans un canal semi-ouvert : Application aux façades type double-peau / Study of convective heat transfer in an open-ended channel : Application to photovoltaic double-Skin Facades Zoubir, Amine 05 February 2014 (has links) Notre investigation porte sur la simulation numérique des échanges thermo-convectifs dans un canal vertical ouvert à flux imposé. Cette étude rentre dans le cadre des recherches sur le rafraîchissement passif des composants PV intégrés au bâtiment. À cet effet, un code numérique en Différences Finies est utilisé pour résoudre les équations de Navier-Stokes et simuler la convection naturelle dans un canal. Ce problème reste difficile à résoudre parce que l'écriture des conditions aux limites d'entrée et de sortie reste un problème ouvert. Notre travail consiste d'abord en étude des différentes conditions aux limites pour le benchmark numérique AMETH. Les travaux réalisés ont permis de faire un premier choix sur les conditions aux limites. L'étude s'oriente ensuite sur la qualification et la quantification numériques et expérimentales pour deux fluides : l'air (convection-rayonnement) et l'eau (convection pure). Les résultats numériques/expérimentaux ont été comparés et les discordances ont été analysées. Plusieurs aspects phénoménologiques (rayonnement entre surfaces, variation des propriétés thermo-physiques, variation du nombre de Prandtl) ont été abordés afin de caractériser leurs influences respectives sur l'écoulement et le transfert thermique. Enfin, dans le but d'apporter des éléments de réponses sur les conditions aux limites dynamiques, nous avons simulé la convection naturelle d'un canal dans une cavité et tenté une modélisation. / The present investigation deals with natural convection flow in a vertical open-ended channel with wall constant heat flux. This study falls under the framework of research on passive cooling of building integrated PV components. For this purpose, a numerical code developed with Finite Differences scheme is used to solve Navier-Stokes equations and simulate the natural convection in a channel. This problem is difficult to solve because the writing of inlet/outlet boundary conditions remains an open problem. First, our work consists of studying different boundary conditions for the the numerical benchmark AMETH. The work carried out has enabled a first choice of boundary conditions. The study then focuses on numerical and experimental quantification and qualification for two fluids : air ( convection - radiation) and water ( pure convection) . Experimental and numerical results were compared and discrepancies were analyzed. Several phenomenological aspects ( surface radiation, thermophysical properties variation, Prandtl number variation ) were discussed in order to characterize their influence on flow and heat transfer. Finally, in order to provide some answers on dynamical boundary conditions, we simulated natural convection of a channel inside a cavity and tried a modeling. Energétique Transfert de chaleur Thermique des bâtiments Convection naturelle Photovoltaïque intégré au bâtiment Façade double-Peau Energetcis Heat transfer Building physics Natural convection Building Integrated Photovoltaics Double-Skin facade 536.230 72
656	Nanofils de Ga ( AI) As sur silicium pour les cellules photovoltaïques de 3ème génération : simulation et croissance auto-catalysée Benali, Abdennacer 21 February 2017 (has links) Les nanofils (NFs) semiconducteurs sont sujets d'un intérêt croissant depuis une vingtaine d'années pour de nombreuses applications potentielles liées à leurs propriétés optoélectroniques spécifiques. Ils présentent ainsi un intérêt particulier pour l'application photovoltaïque. En effet, l'association du fort coefficient d'absorption des semiconducteurs III-V et du bas coût des substrats de silicium permettrait de réaliser des cellules photovoltaïques à bas coût et à haut rendement. C'est dans ce contexte que s'est déroulée cette thèse qui visait deux objectifs : d'une part, la simulation RCWA (Rigorous CoupledWave Analysis) de l'absorption de la lumière dans un réseau ordonné de NFs de GaAs sur un substrat de silicium et d'autre part, la croissance auto-catalysée de NFs de GaAs par Epitaxie par Jets Moléculaires (EJM) en mode Vapeur- Liquide-Solide (VLS). La simulation RCWA a permis de déterminer les paramètres optimaux en termes de diamètre et hauteur des NFs ainsi que de la période du réseau de NFs pour avoir une absorption optimale de la lumière, en prenant en compte les couches de passivation de GaAlAs et d'ITO. L'étude de la croissance auto-catalysée des NFs de GaAs a permis de déterminer les paramètres de croissance (température, flux de Ga, flux d'As, rapport V/III, ...) optimaux pour avoir une densité, un diamètre et une hauteur de NFs verticaux corrélés aux résultats de simulation. Il a aussi été mis en évidence un rapport V/III critique à ne pas dépasser pour conduire à des NFs de structure cristalline pure Zinc-Blende. Des NFs de GaAs à jonction p-n cœur-coquille ont été produits et caractérisés par EBIC et SSRM. Enfin, nous avons démontré la faisabilité de la croissance auto-catalysée de NFs de GaAlAs sur substrat Si par EJM-VLS. / Over the past few years, semiconductor nanowires (NWs) have aroused a lot of interest for their specific optoelectronic properties. The latter make them particularly interesting for photovoltaics. The combination of the high absorption coefficient of the III-V semiconductors and the low cost of the silicon substrates would indeed make it possible to produce low-cost and with high-efficiency photovoltaic cells. This context made it possible to write this thesis. On the one hand, the RCWA (Rigorous Coupled Wave Analysis) simulation of the light absorption in an ordered GaAs NW array on a silicon substrate and on the other hand the self-catalyzed growth of GaAs NWs by Molecular Beam Epitaxy (MBE) in Vapor-Liquid-Solid (VLS) mode. The RCWA simulation was carried out to determine the optimal parameters such as the diameter and the height of the NWs, and the period of the NW array for efficient light absorption. This work took into account both GaAlAs "passivating" layer and ITO transparent contact layer in order to define the optimal parameters. The study of the self-catalyzed growth of GaAs NWs allowed us to determine the optimal growth parameters (temperature, Ga flux, As flux, V/III ratio, ...) in order to obtain a density, diameter and height of vertical NWs correlated to simulation results. A critical V/III ratio was also determined, and in order to produce pure Zinc-Blende NWs, this ratio should not exceed that value. GaAs NWs with p-n core-shell junction were produced and characterized by EBIC and SSRM. Finally, we demonstrated the feasibility of the self-catalyzed growth of GaAlAs NWs on Si substrate by VLS-MBE. Nanofils GaAs-GaAlAs Épitaxie par jets moléculaires Mode VLS Croissance autocatalysée Jonction p-n cœur-coquille EBIC Simulation RCWA Photovoltaïque Nanowires GaAs-GaAlAs Molecular beam epitaxy VLS mode Self-catalyzed growth Core-shell p-n junction EBIC RCWA simulation Photovoltaics
657	Développement de techniques de métallisation innovantes pour cellules photovoltaïques à haut rendement / Development of innovative metallization techniques for high efficiency silicon solar cells Boulord, Caroline 11 April 2011 (has links) Cette thèse s’est focalisée sur le développement et l’optimisation de techniques de métallisation électrochimique permettant le dépôt de métaux conducteurs, l’argent et le cuivre, par voie électrolytique ou par la technique dite LIP (Light-Induced Plating). Deux approches ont été abordées pour l’élaboration des contacts en face avant : l’épaississement de contacts sérigraphiés d’une part, et la réalisation de contacts entièrement par voie électrochimique sans recours à la sérigraphie. Pour cette dernière solution, le dépôt d’une couche d’accroche avant l’étape d’épaississement est nécessaire afin d’assurer une résistivité de contact faible, une bonne adhérence et une bonne sélectivité au travers de la couche anti-reflet. Ces objectifs ont été atteints grâce à la mise en œuvre et l’optimisation de dépôts electroless de nickel-phosphore (NiP), y compris sur émetteur peu dopé. Les investigations menées ont également permis une meilleure compréhension des mécanismes de formation du contact NiP/Si. La faisabilité des techniques de dépôt électrochimique a été démontrée pour diverses applications: cellules avec contacts électrochimiques NiP/Ag en face avant, cellules de type n, épaississement de contacts fins sérigraphiés… Des résultats très prometteurs d’amélioration de facteur de forme FF et de rendement η ont été obtenus et permettent d’envisager une ouverture potentielle vers de nouvelles structures de cellules photovoltaïques à haut rendement : cellules à émetteur peu dopé, cellules à émetteur sélectif avec ouverture laser de la couche anti-reflet, cellules à contacts arrières…. / This thesis is focused on the development and the optimization of electrochemical metallization techniques allowing the deposition of conductive metals, silver and the copper, by electrolytic deposition or by lip (light-induced plating). Two approaches were studied to realize the front side contacts of silicon solar cells: the thickening of screen-printed contacts and the fabrication of contacts completely by electrochemical deposition without screen-printing. For this solution, the deposition of a seed layer before thickening is necessary to insure a low contact resistivity, a satisfying adhesion and selectivity through the anti-reflection coating. These objectives were reached thanks to the optimization of electroless nickel-phosphorous (nip) deposits, including on low doped emitter. The investigations also allowed a better understanding of the NiP/Si contact formation mechanisms. The feasibility of electrochemical deposition techniques was demonstrated for various applications : cells with electrochemical front side contacts NiP/Ag, type n cells, thickening of fine line screen-printed contacts… very promising results of fill factor ff and efficiency improvement were obtained and allow to realize new structures of high efficiency photovoltaic cells : cells with low doped emitter, cells with selective emitter and with laser ablated anti-reflection coating, rear contact cells… Photovoltaïsme Cellule photovoltaïque Métallisation électrochimique Dépot électrolytique Electrodéposition Dépôt LIP Rendement énergétique Photovoltaic Cell Photovoltaics Electrochemical Metallization Electrolytic deposition Plating-up LIP - Light-Induced Plating Energetic Efficiency 537.540 72
658	Influence of processing conditions on morphology and performance of vacuum deposited organic solar cells Holzmüller, Felix 11 September 2017 (has links) (PDF) This thesis discusses vacuum deposited organic solar cells. It focuses on the investigation of new donor molecules blended with the standard electron acceptor C60. These donor-acceptor heterojunctions form the photoactive system of organic solar cells. In addition, the influence of the processing conditions on the morphology of the blend layers is investigated, as the morphology is crucial for an efficient generation of free charge carriers upon photon absorption. Bulk heterojunction solar cells with the donor DTDCTB are deposited at different substrate temperatures. We identify three substrate temperature regimes, discriminated by the behavior of the fill factor (FF ) as a function of the blend layer thickness. Devices deposited at RT have a maximum FF between 50 and 70 nm blend thickness, while devices deposited at 110 °C have a monotonically decreasing FF. At Tsub=85 °C, the devices have an S-kinked current-voltage curve. Grazing incidence wide angle X-ray scattering measurements show that this peculiar behavior of the FF is not correlated with a change in the crystallinity of the DTDCTB, which stays amorphous. Absorption measurements show that the average alignment of the molecules inside the blend also remains unchanged. Charge extraction measurements (OTRACE) reveal a mobility for the 110 °C device that is an order of magnitude higher than for the RT device. The difference in mobility can be explained by a higher trap density for the RT samples as measured by impedance spectroscopy. Despite slightly higher carrier lifetimes for the RT device obtained by transient photovoltage measurements, its mobility-lifetime product is still lower than for the 110 °C devices. Based on DTDCTB, three new donor materials are designed to have a higher thermal stability in order to achieve higher yields upon material purification using gradient sublimation. For PRTF, the thermal stability is increased demonstrated by a higher yield upon sublimation. However, all new materials have a reduced absorption as compared to DTDCTB, which limits the short current density, and the FF is more sensitive to an increase of the blend layer thickness. The highest power conversion efficiency is achieved for a PRTF:C60 solar cell with 3.8%. Interestingly, PRTF:C60 solar cells show exceptionally low nonradiative voltage losses of only 0.26 V. Another absorber molecule is the push-pull chromophore QM1. Scanning electron microscope (SEM) measurements show a growth of the molecule in nanowires on several substrates. The nanowires have lengths up to several micrometers and are several tens of nanometers wide. The formation of the nanowires is accompanied by a strong blue shift (650 meV) of the thin film absorption spectrum in comparison to the absorption in solution, which is attributed to H-aggregation of the molecules. Furthermore, the thin film absorption onset reaches up to 1100 nm, making the material a suitable candidate for a near infrared absorber in organic solar cells. For a solar cell in combination with C60, a power conversion efficiency of 1.9% was achieved with an external quantum efficiency of over 19% for the spectral range between 600 and 1000 nm. The method of “co-evaporant induced crystallization” as a means to increase the crystallinity of blend layers without increasing the substrate temperature during the deposition is investigated. Mass spectrometry (LDI-ToF-MS) measurements show that polydimethylsiloxane (PDMS), which is used as a co-evaporant, decomposes during the evaporation and only lighter oligomers evaporate. Quartz crystal microbalance (QCM) measurements prove that the detection of PDMS saturates at higher amounts of evaporated material. LDI-ToF-MS measurements show further that the determination of the volatilization temperature by QCM measurements is highly error prone. The method was applied to zinc phthalocyanine (ZnPc) :C60 solar cells, accepting the insertion of PDMS into the blend layer. Diffraction (GIXRD) measurements show a large increase in crystallinity. ZnPc:C60 solar cells produced by applying the method reveal a similar behavior as solar cells processed at a higher substrate temperature. organische Solarzellen organische Photovoltaik Volumenheteroübergang Vakuumprozessierung DTDCTB organic solar cells organic photovoltaics small molecular solar cells bulk heterojunctions nanowires self assembly vacuum deposition co-evaporant induced cryztallization DTDCTB ddc:530 rvk:VN 6057
659	Photovoltaïque organique : étude des interactions électroniques aux interfaces des hétérojonctions organiques / Organic photovoltaics : study of electronic interactions at interfaces in organic heterojunctions Le Borgne, Damien 04 October 2016 (has links) Du fait de leur faible coût de production et de leur intégration possible sur substrat flexible, les cellules photovoltaïques organiques sont prometteuses pour répondre aux besoins futurs en énergie. Leurs performances reposent sur l'architecture de la cellule et sur la nature des matériaux choisis. Par conséquent, le contrôle à l'échelle nanométrique de la couche active (formation de nanodomaines purs, organisation moléculaire...), ainsi que le développement de nouvelles molécules aux propriétés électroniques et structurales optimisées apparaissent comme des paramètres clés. Dans ce contexte, les travaux présentés dans cette thèse visent à étudier le lien entre la morphologie des films minces et les propriétés de transport à l'échelle nanométrique en fonction des matériaux actifs utilisés. Pour cela deux voies ont été explorées. La première voie repose sur l'utilisation des propriétés d'auto-organisation des cristaux liquides pour améliorer la formation et l'organisation de nanodomaines. Pour cette étude, nous avons choisi d'associer un donneur d'électron classique, le poly-3-hexylthiophène (P3HT), et de le mélanger avec un complexe de nickel [Ni(4dopedt)2] possédant des propriétés cristallines liquides colonnaires. L'étude par Microscopie à Force Atomique (AFM), Conductive-AFM (C-AFM), absorption UV-visible et spectrométrie Raman des films de mélanges démontre l'effet structurant du cristal liquide sur les chaînes de P3HT, en fonction de l'épaisseur de la couche et des traitements thermiques effectués. La deuxième voie explorée repose sur l'ingénierie moléculaire. Suite à une étude bibliographique, nous avons conçu puis synthétisé différentes petites molécules fluorées capables d'agir comme accepteurs d'électrons. Leur synthèse est réalisée en plusieurs étapes, privilégiant une méthode de couplage innovante, l'hétéroarylation directe. Les molécules obtenues ont été caractérisées par les techniques analytiques classiques, puis soumises à une étude de relation structures/propriétés. D'une part, les analyses optiques, électrochimique et thermique ont révélé leur grande stabilité et leur intérêt potentiel pour l'application visée. D'autre part, leur étude en film mince, par spectroscopie d'absorption UV-visible, de fluorescence et par AFM, révèle l'influence de la substitution du squelette conjugué par des atomes de fluor ainsi que de la modification des chaînes alkyles des groupements terminaux sur les propriétés optoélectroniques et structurelles des molécules. / Organic solar cells appear as a promising technology to meet future energy requirements, owing to their low production costs, their great flexibility and their ability to be integrated into light devices. Their performances rely on their architecture and the nature of the chosen materials. As a consequence, two of the key parameters for their development are the control the active layer at a nanometric scale (molecular organisation and the formation of pure compound nanodomains) and the development of new small molecules with optimized electronic and structural properties. This work comes in that aim : the study of the relation between thin film morphology and transport properties at the nanometric scale as function of the chosen materials. Two ways have been explored. The first way relied on self-organisation properties of a liquid crystal for improving the formation and organisation of nanodomains. In this purpose, we have associated a well-known electron donor, the poly-3-hexylthiophene (P3HT), with a complex of nickel, named as [Ni(4dopedt)2], exhibiting columnar liquid crystal properties. Atomic Force Microscopy (AFM), Conductive-AFM (C-AFM), UV-visible absorption and Raman spectroscopy on bulk films have shown the structuring effect of the liquid crystal on the P3HT chains as a function of the films thicknesses and thermal annealing. The second way was based on molecular engineering. Following a bibliographic study, we have designed and synthetized different fluorinated small molecules with electron acceptor capability. For this, a more economical and cleaner synthesis technique has been employed: the direct arylation. These molecules have been characterized by classical analytic technics, and a study of the relation between structure and properties has been carried out. On the one hand, optical, electrochemical and thermal analyses have shown their good stability and their potential for the aimed application. On the other hand, their study in thin film by UV-visible absorption, fluorescence and AFM have shown the influence of backbone substitution by fluorine atoms as well as the impact of the nature of alkyl end chains on the optoelectronic and structural properties of these molecules. Photovoltaïque organique Petites molécules semi-conductrices Matériaux conjugués Hétéroarylation directe AFM C-AFM Spectrométrie Raman Propriétés optoélectroniques Organic photovoltaics Semi-conducting small molecules Conjugated materials Direct heteroarylation AFM C-AFM Raman spectroscopy Optoelectronics properties
660	Design And Synthesis Of Donor-Acceptor (D-A) Organic Semiconductors : Applications In Field Effect Transistors And Photovoltaics Dutta, Gitish Kishor 06 1900 (has links) (PDF) The present thesis is focused on rational design and synthesis of π-conjugated donor-acceptor (D-A) type oligomers and polymers. It is organized in six different chapters and a brief discussion on the content of the individual chapter is provided below. Chapter 1 briefly describes the charge transport properties of organic semiconductors followed by recent development of different organic semiconducting materials mainly for applications in OFET and solar cells have been highlighted. Chapter 2 explores the synthesis and characterization of two new liquid crystalline, D-A type bithiophene-benzothiazole derivatives. The liquid crystalline properties of the materials have been studied in detail with optical polarizing microscopic images and differential scanning calorimetry and found that these materials possess highly ordered smectic A liquid crystalline phase. Their charge transport properties have also been investigated by fabricating OFET devices. Chapter 3 describes the photophysical properties and OFET performance of quinoxaline based donors-acceptor-donor (D-A-D) type molecules. Depending on the flexibility and rigidity of the conjugated backbone these materials show liquid crystalline behaviour. Investigation of their OFET performance indicated that these molecules exhibit p-type mobility up to 9.7 x 10-4 cm2V-1s-1 and on/ off ratio of 104. Chapter 4 investigates excited state properties and OFET behavior of D-A-D type diketopyrrolopyrrole (DPP) derivatives end-capped with alkoxynaphthalene group. UV-Visible spectroscopy measurement shows strong intramolecular charge transfer (ICT) between donor and acceptor unit. Steady-state and time-resolved fluorescence measurements confirm the formation of excimer. The excited state interactions, the interchromophore separation and geometry of the molecules influence the extent of excimer formation. Finally, the OFET behavior of these DPP based materials has been studied using different dielectric layers. Chapter 5 discusses the synthesis, characterization and properties of two new thieno[3,2-b]thiophene-DPP based donor-acceptor (D-A) type low band gap polymers (PTTDPP-BDT and PTTDPP-BZT). Investigation of OFET performance indicated that polymers exhibited ambipolar behaviour with hole mobility upto 1.0 x 10-3 cm2/Vs and electron mobility upto 8 x 10-5 cm2/Vs. Using polymer PTTDPP-BDT with electron acceptor C70PCBM, power conversion efficiency (PCE) around 3.26% in bulk heterojunction solar cell has been achieved. Chapter 6 describes the approach to tailor the energy levels of conjugated polymers (PTDPP-IDT and PTTDPP-IDT) based on Indacenodithiophene (IDT) coupled with DPP moieties. We have studied the photovoltaic performance of these conjugated polymers by blending with PCBM and P3HT. The importance of these materials in polymer/polymer blend solar cell has been emphasized. The photovoltaic devices with polymer/polymer blend solar cell exhibit high open-circuit voltages (VOC) of ~ 0.8 V. In summary, the work presented in this thesis describes synthesis, characterization and photophysical properties of new organic semiconductors and their importance in optoelectronic devices. This work also describes a general design principle of nonfullerene organic solar cell. The results described here show that these materials have potential application as active components in plastic electronics. Organic Semiconductors Photovoltaics Organic Field Effect Transistors Organic Solar Cells Donor-Acceptor Organic Semiconductors Donor-Acceptor Oligomers - Synthesis Donor-Acceptor Polymers - Synthesis Diketopyrrolopyrrole (DPP) Benzothiazole Materials Science

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