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  • About
  • The Global ETD Search service is a free service for researchers to find electronic theses and dissertations. This service is provided by the Networked Digital Library of Theses and Dissertations.
    Our metadata is collected from universities around the world. If you manage a university/consortium/country archive and want to be added, details can be found on the NDLTD website.
41

Studium vztahu mezi strukturou a vlastnostmi derivátů diketopyrolopyrolů / Study of structure-property relationship of diketopyrrolopyrrole derivatives

Vrchotová, Jana January 2011 (has links)
This master´s thesis deals with new perspective organic molecular materials. A theoretical part contains search themed on organic materials for optical and electronic devices with emphasis on diketopyrrolopyrrole derivatives. The aim of the experimental part was preparation of solutions, thin layers and prototypical planar electronic components from chosen diketopyrrolopyrrole derivatives and their optical and electric characterization. Obtained results are interpreted with perspective on application in organic electronic.
42

Optické a elektrické vlastnosti nových materiálů pro organickou elektroniku a fotoniku / Optical and electrical properties of new materials for organic electronics and photonics

Sionová, Marcela January 2012 (has links)
This diploma thesis is focused on the properties characterization of new organic materials with respect to their potential application in organic electro-optic devices. The theoretical part contains a themed literature search on application of organic materials for organic electronics and photonics. The basic principles of these devices are described. The practical part includes the preparation of thin films for organic photovoltaics of two types: based on low molecular weight organic compounds (diketo-pyrrolo-pyrroles derivates) and based on polymer (mixture of copolymer of poly(phenylenevinylene) and molecular senzitizer – derivate of fullerene). The first part of experiment is focused on characterization of optical and electrical properties of selected diketo-pyrrolo-pyrroles derivates and the second part is study the influence of annealing to polymer layer.
43

Charge transport in organic multi-layer devices under electric and optical fields

Park, June Hyoung 17 July 2007 (has links)
No description available.
44

Design and Characterization of Electrospun Mats with Tailored Morphologies for Enhanced Active Layer Performance in Energy Conversion and Energy Storage Applications

Forbey, Scott 15 May 2014 (has links)
The goal of this research was to utilize the morphological control inherently imparted by the electrospinning process to improve the active layer performance in energy conversion devices as well as to better understand the relationship between morphology and performance in energy storage devices. Discrete control of the active layer morphology can promote exciton dissociation in organic photovoltaic cells (OPVs), whereas developing efficient ion diffusion pathways and beneficial polymer-ion interaction in polymer-gel electrolytes is demonstrated to result in enhanced battery performance. We demonstrate the ability to develop unique morphologies in Poly(3-hexafluoro propylene) (P3HT) films with energy storage applications using various electrospinning techniques. Electrospinning in a solvent-saturated atmosphere allows for the design of ribbon architectures with polymer domains on the order of 5-10 um. These ribbon structures form what appear to be bi-continuous films, which could then be filled with an acceptor / fullerene type material to create a bulk heterojucton for OPV devices. Dropping chloroform onto the electrospinning needle during the spinning process results in P3HT fibers with porous surfaces. These fibers have diameters of ~ 2 um. Using a coaxial needle to electrospin a P3HT solution in the core, and a CHCl3 sheath solution created hybrid ribbon-fiber structures. These structures have even smaller domain sizes than the ribbons created using a solvent saturated atmosphere. Cospinning P3HT with sacrificial polymers results in P3HT fiber morphologies upon removal of the sacrificial template polymer. Additionally, introducing P3HT into an established fiber matrix results in fibrous P3HT architectures after the template fibers are removed. Developing hybrid polymer-gel electrolytes using crosslinked PEO electrospun fibers results in membranes with high affinity for liquid electrolyte components. These electrospun PEO fiber mats exhibit excellent ionic conductivities at room temperature (12 mS/cm) exceeding an electrospun PVDF control. Furthermore, the PEO fiber mats can absorb nearly three times as much liquid electrolyte as the PVDF control. PEO has been show to interact with lithium salts to aid in dissociation and diffusion during battery cycling. Although the ionic conductivity data suggest PEO to be a superior electrolyte, pulsed-field-gradient NMR shows that lithium diffusion is faster in PVDF samples. From coin cell discharge experiments, PEO is believed to interact strongly with Li+ ions, inhibiting them from diffusing rapidly during fast charge/discharge rates. However, PEO/PETA fiber electrolytes show nearly 100% theoretical capacity discharge at C/100 and a capacity retention of ~ 35% at a C/5 discharge rate in contrast to a glass fiber separator which shows only a capacity that is approximately 85% of the theoretical value. The unique mechanical properties of PEO/PETA electrospun mats could lead to interesting artificial skin and wound healing applications. Upon crosslinking at elevated temperatures (~40 degrees C), the fiber mats exhibit improved tensile strength and much higher ultimate stress at break. The porous nature of the materials lend to easy oxygen diffusion for wound healing, and the hydrophilicity promotes continued adhesion to existing tissue making these mats possible adhesive-less bandages. / Ph. D.
45

Organic light-harvesting materials for power generation

Jradi, Fadi M. 27 May 2016 (has links)
This dissertation focuses on the design, synthesis, and characterization of a variety of organic dyes, semiconducting materials, and surface redox-active modifiers of potential interest to organic-based emerging photovoltaics. A discussion of the materials’ optoelectronic properties, their ability to modify and promote electron transfer through an organic/transparent conducting-oxide interface, and finally their effect on the photovoltaic properties of devices utilizing them as light-harvesters is provided where relevant. The first two research chapters discuss mono-chromophoric asymmetric squaraine-based sensitizers and covalently linked, dual-chromophoric, porphyrin-squaraine sensitizers as light absorbers in dye-sensitized solar cells (DSSCs), in an attempt to address two problems often encountered with DSSCs utilizing this class of near infra-red sensitizers; The lack of panchromatic absorption and aggregation on the surface. Also, this dissertation discusses the design and synthesis of asymmetric perylene diimide phosphonic acid (PDI-PA) redox-active surface modifiers, and reports on the electron-transfer rates and efficiencies across the interface of an ITO electrode (widely used in organic-electronic devices) modified with these perylene diimides. Finally two series of hole-transport materials based on oligothiophenes and benzodithiophenes are reported: optoelectronic properties and preliminary performance of organic photovoltaic (OPV) devices fabricated with them is discussed.
46

Signature optique d’effet Stark dans une bicouche de CuPc:C60

Dion-Bertrand, Laura-Isabelle 11 1900 (has links)
Les hétérojonctions formées de deux matériaux, un donneur et un accepteur (D/A), sont la base de la majorité des mélanges photovoltaïques organiques. Les mécanismes de séparation des charges dans ces systèmes représentent aujourd'hui l'un des sujets les plus chauds et les plus débattus dans ce domaine. Nous entrons au coeur de ce débat en choisissant un système D/A à base de phtalocyanine de cuivre (CuPc) et de fullerène (C60). Pour sonder les états excités de nos molécules et obtenir de l'information sur les phénomènes à l'interface D/A, nous réalisons une expérience pompe-sonde, appelée absorption photoinduite (PIA). Nous y mesurons le changement fractionnaire de transmission au travers de l'échantillon. Les mesures de PIA sont réalisées à l'état de quasi équilibre, à T=10K. Nous observons une modulation prononcée dans la région du photoblanchiment de l'état fondamental qui nous indique que la pompe induit un décalage du spectre d'absorption de l'état fondamental. Ce décalage peut être expliqué par deux processus : soit l'échantillon est chauffé par la pompe (effet thermique) ou bien des charges sont créées à l'interface entre les deux matériaux (effet Stark). La dépendance en température du spectre d'absorption entre 10K et 290K montre une signature thermique pour un changement de température de 80K. Grâce au ratio des raies Raman anti-Stokes et Stokes, nous démontrons que la pompe chauffe l'échantillon de 34 K, température insuffisante pour attribuer notre signal à un effet thermique. Nous évaporons ensuite la bicouche CuPc/C60 sur de l'ITO et du saphir, substrats qui possèdent des conductivités thermiques différentes et nous observons le même signal de PIA, excluant par le fait même l'hypothèse de l'effet thermique. Puisque notre étude est comparable à la spectroscopie à effet Stark, nous procédons à une analyse similaire en comparant notre signal de PIA au spectre de la transmittance et à ses dérivés première et seconde. Nous observons alors que notre signal reproduit presque parfaitement la dérivée seconde de la transmittance. Ces résultats sont conformes à une signature optique d'effet Stark due à la création de charges à l'interface D/A. / Nowadays, the donor/acceptor (D/A) structure is one of the most popular configuration for organic solar cells. The charge separation mechanisms in this type of systems is now a hot topic of debate in this field of research. To adress this debate, we choose a D/A system made of copper phthalocyanine (CuPc) and fullerene (C60). In this work, we perform quasi-steady-state photoinduced absorption (PIA) measurements which consist of a pump-probe experiment where we measure the fractional change in transmission through the sample. This experiment probes the excited states of our molecules and gives us informations about the photophysics near the interface between the two materials. The measurements were mainly done at T=10K. We observe a strong modulation of the ground state photobleaching that indicates that the laser excitation induces a shift of the ground state absorption spectrum. This shift can be ascribed to two processes: either the pump is heating the sample (heat transfer) or charge are being created at the interface between the two materials (Stark effect). The temperature dependence of the absorption spectrum between T=10K and T=290K shows a thermal signature for a change in temperature of 80K. By calculating the ratio of the Raman Stokes and anti-Stokes peaks, we establish that the pump heat up the sample of 34K, an insufficient temperature to assign the change of transmittance to a thermal effect. We then evaporate our CuPc/C60 bilayer on ITO and sapphire, two substrates with different thermal conductivities and we observe the same signal thereby excluding the assumption of the thermal effect. Since our study bears a resemblance to Stark spectroscopy, we justify the use of a similar analysis by comparing our PIA signal to the transmittance spectrum of our molecules and its first and second derivative. We find that the signal reproduces almost perfectly the second derivative. Thus, we attribute the aforementioned results to an optical signature of Stark effect due to the creation of charges at the heterojunction.
47

Étude par spectroscopie résolue en temps des mécanismes de séparation de charges dans des mélanges photovoltaïques

Gélinas, Simon January 2009 (has links)
Mémoire numérisé par la Division de la gestion de documents et des archives de l'Université de Montréal.
48

Electronic properties of interfaces in polymer based organic photovoltaic cells

Frisch, Johannes 26 February 2015 (has links)
Der Schwerpunkt der vorgelegten Arbeit lag in der Bestimmung der Energieniveaus an allen Grenzflächen in bestimmten heterostrukturierten Polymer/Polymer- und Polymer/Molekül basierten Solarzellen. Die elektronische Charakterisierung erfolgte mittels Photoelektronenspektroskopie. Morphologie und Schichtdicke der aufgeschleuderten Filme wurden mit den komplementären Analysetechniken UV-vis Absorptionsspektroskopie, Rasterkraftmikroskopie sowie Röntgenphotoelektronenspektroskopie bestimmt. An der PEDT:PSS-Anode/Polymer-Grenzschicht wurden Änderungen im Vakuumniveau von bis zu 0,65 eV gemessen. Die Polymerabscheidung führte zu einer Erniedrigung der Substrataustrittsarbeit, auch wenn die Polymerionisationsenergie mehrere 100 meV größer als die ursprüngliche PEDT:PSS-Austrittsarbeit war. Eine detailierte Analyse der PEDT:PSS/Polymer Grenzflächen ausgehend von Submonolagen zu Multilagen zeigte verschiedene Ursachen für die Änderungen des Vakuumniveaus als verantwortlich. Zweitens: an Donator/Akzeptor-Grenzflächen wurden Änderungen im Vakuumniveau von bis zu 0,35 eV festgestellt, welche die solare Bandlücke (PVG) und folglich die Höchstgrenze der Leerlaufspannung (VOC) beeinflusst. Ein Vergleich aller Resultate der Grenzflächenanalyse mit den Solarzellen Parametern bestätigte PVG als obere Schranke von VOC. Der Energieunterschied zwischen PVG und VOC, der ein Maß für die Verluste in der Solarzelle darstellt, war für reine Polymerheteroübergänge größer als für Polymer/Molekül-Heterostrukturen mit einem Minimum bei 0,5 eV. Drittens: parallel zum Aufbau der Akzeptor/Kathoden-Grenzfläche veränderte sich das Vakuumniveau um ca. 1 eV, bedingt durch das Pinning des Kathoden-Ferminiveaus (EF) an unbesetzte Grenzflächenzuständen. Die energetische Lage dieser Zustände bezüglich EF entschied dabei über die Stärke der Diffusionsspannung in der Solarzelle, welche bei Beleuchtung der entstandenen Solarzellenstruktur durch eine lichtinduzierte Photospannung ausgeglichen wurde. / The main focus of this work was to provide a comprehensive picture of the energy level alignment at the multitude of interfaces that occur in selected polymer/polymer and polymer/small molecule heterojunction photovoltaic cells. The electronic characterization was performed using photoelectron spectroscopy. Morphology and thickness of spin coated thin films was investigated using a complementary technique approach employing UV-vis absorption spectroscopy, atomic force microscopy, and X ray photoelectron spectroscopy. At the PEDT:PSS anode/polymer interface vacuum level shifts up to 0.65 eV were observed. Polymer deposition decreased the substrate work function (WF even though the polymer ionization energy was several 100 meV higher as the initial PEDT:PSS WF. An in depth analysis of the PEDT:PSS/polymer interface from sub-monolayer to multilayer coverage revealed highly diverse origins for the observed vacuum level shifts. Secondly, investigations of the donor/acceptor interfaces revealed vacuum level shifts up to 0.35 eV that influence the photovoltaic gap (PVG) at the heterojunction and, therefore, the upper limit of the open circuit voltage (VOC) in the device. Correlating device data and all results of the interface analysis, PVG was finally confirmed as an upper limit for VOC. The energy difference (eV) between PVG and experimentally determined VOC, which was assigned to losses in the device, was found to be higher for all polymer heterojunctions compared to polymer/small molecule cells with a minimum at eV = 0.5 eV. Third, cathode/acceptor interface formation was accompanied by interfacial vacuum level shifts of ca. 1 eV caused by Fermi level (EF) pinning at interfacial gap states. The exact position of the acceptor pinning level with respect to EF of the anode determines the strength of the built in field in the device that was found to be fully counterbalanced by a photovoltage induced by in situ illumination of the resulting OPVC-like sample structures.
49

Structural and energetic properties of pentacene derivatives and heterostructures

Salzmann, Ingo 09 March 2009 (has links)
Das Ziel der Arbeit ist die Herstellung und die Charakterisierung von Heterostrukturen des organischen Halbleiters Pentazen (PEN) mit diversen konjugierten organischen Materialien im Hinblick auf das Anwendungspotenzial im Bereich der organischen Elektronik. Für die Untersuchung von PEN-Heterostrukturen mit (i) Fulleren (C60), (ii) Perfluoropentazen (PFP) und (iii) 6,13-Pentazenchinon (PQ) wurden mehrere komplementäre experimentelle Techniken angewendet: Röntgenbeugung, Schwingungsspektroskopie, Rasterkraftmikroskopie und Photoelektronenspektroskopie. (i) Für PEN - Heterostrukturen mit C60 wurden die elektronischen, strukturellen und morphologischen Eigenschaften mit der Leistung von organischen Solarzellen (OSZ) für geschichtete und gemischte Systeme korreliert. Dabei wurde gezeigt, dass morphologische anstatt struktureller oder energetischer Ursachen die Leistungsunterschiede der beiden untersuchten Zelltypen erklären. (ii) Strukturuntersuchungen wurden an reinen PFP-Filmen, sowie an geschichteten und gemischten Heterostrukturen mit PEN durchgeführt. Es wurde die Struktur der PFP-Dünnfilmphase gelöst und das Wachstum von PEN+PFP Mischkristallen gezeigt, welche erfolgreich angewandt wurden, um die Ionisationsenergie (IE) des Films mit dem Mischungsverhältnis durchzustimmen. Dies wurde durch die Existenz von innermolekularen polaren Bindungen (C-H und C-F für PEN und PFP) erklärt. (iii) Für reine PQ-Filme wurde die Struktur der PQ-Dünnfilmphase gelöst (ein Molekül pro Einheitszelle). Es wurde eine stark orientierungsabhängige IE von PQ und PEN gefunden und gezeigt, dass die Energieniveaulagen für die Anwendung in OSZ geeignet sind. Die Untersuchung von Mischsystemen zeigte phasensepariertes Wachstum ohne Hinweise auf Interkalation, selbst bei PQ Konzentrationen von nur 2%. Weiters wurde gezeigt, dass O2 und Wasser keine nachhaltigen Auswirkungen auf PEN-Filme zeigen, wohingegen Singlett-Sauerstoff und Ozon diese angreifen und flüchtige Reaktionsprodukte liefern. / The scope of this work is the combination of the organic semiconductor pentacene (PEN) with different conjugated organic molecules to form application relevant heterostructures in vacuum sublimed films. Using x-ray diffraction (XRD), vibrational spectroscopy, atomic force microscopy and photoelectron spectroscopy, PEN heterostructures with (i) fullerene (C60), (ii) perfluoropentacene (PFP) and (iii) 6,13-pentacenequinone (PQ) were thoroughly characterized to judge on the respective application potential in organic electronics. (i) PEN heterostructures with C60 were investigated regarding the correlation of energetic, structural and morphological properties with the performance of organic photovoltaic cells (OPVCs) for both layered and mixed structures. Morphological rather than energetic or structural issues account for performance differences of bulk-heterojunction OPVCs compared to layered devices. (ii) XRD investigations were carried out on pure PFP films, on layered and mixed heterostructures with PEN. The thin-film polymorph of PFP was solved and it is shown that blended films form a mixed crystal structure, which led to the finding that the ionization energy (IE) of organic films composed of molecules with intramolecular polar bonds (like C-H and C-F for PEN and PFP, respectively) can be tuned through the mixing ratio. (iii) A so far unknown thin-film polymorph of PQ on SiO2 substrates was solved using XRD reciprocal space mapping evidencing a loss of the herringbone arrangement known from the PQ bulk structure. For PEN heterostructures with PQ a highly molecular-orientation dependent IE and energy level offsets interesting for the use in OPVCs were found. Mixed films of PEN and PQ exhibit phase separation and no intercalation was found even at PQ concentrations as low as 2%. Finally, it is shown that O2 and water do not react noticeably with PEN, whereas singlet oxygen and ozone readily oxidize PEN films producing volatile reaction products instead of PQ.
50

Aplicações de técnicas de impressão à dispositivos eletrônicos orgânicos / Applications of printing techniques for organic electronic devices

Rebello, Pedro Henrique Pereira 27 January 2014 (has links)
O trabalho desta dissertação versou sobre avanços em tecnologias de eletrônica impressa de baixo custo. Em particular, aplicamos as técnicas de impressão por serigrafia e por jato de tinta para confeccionar dispositivos eletrônicos e optoeletrônicos. O primeiro dispositivo construído foi resistências impressas por jato de tinta tendo como matérias primas o poli(3,4-etileno dióxido tiofeno) com sulfonato de poliestireno (PEDOT:PSS) e nanopartículas de prata sobre substratos de vidro. Os valores das resistências foram analisados em se variando parâmetros de impressão. Como segundo dispositivo, imprimimos pela técnica de serigrafia sobre vidro e kapton, antenas de cartões de RFIDs (Radio-Frequency Identifications), também com os dois materiais: tinta de prata e PEDOT:PSS. Os RFIDs foram projetados para operar em frequências entre 860 MHz e 960 MHz. A antena de PEDOT:PSS mostrou alcance de 0,45 m, enquanto que a de tinta prata teve alcance de 1,6 m em 860 MHz e de 4 m em 960 MHz. Fabricamos também células eletroquímicas emissoras de luz (Organic Light Emitting Electrochemical Cells - OLECs), no qual substituímos o eletrodo transparente de óxido de índio (ITO), por um feito de PEDOT:PSS, aplicado por serigrafia sobre vidro. A camada ativa da célula luminescente foi feita por uma mistura de óxido de polietileno complexado com sal de lítio e um polímero luminescente derivado de polifluoreno que emite no verde. As curvas características de corrente e luminância em função da voltagem externa aplicada mostrou o bom desempenho das células fabricadas. Finalmente, produzimos células fotovoltaicas orgânicas, em que o eletrodo transparente, também de PEDOT:PSS, foi depositado por serigrafia sobre vidro. A camada ativa nesse caso foi um sistema bifásico feito de poli(3hexiltiofeno) (P3HT) e um éster, o [6,6]-fenil-C61-ácido metil-butírico (PCBM). Esse dispositivo apresentou um Fator de Preenchimento de 0,47 e uma eficiência externa de aproximadamente 2%. / The work developed along this thesis presents advances in printed electronic technologies of low cost. In particular we applied printable serigraphic and Inkjet technologies to produce electronic and optoelectronic devices. First, we produced resistances having poly(3,4-ethylenedioxythiophene) poly(styrenesulfonate) (PEDOT:PSS) and silver paint as active materials, using an Inkjet printer on glass substrate. We made studies of the resistance performance varying some printed parameters. Then, by serigraphy screen printing was printed, on substrates of kapton and glass, an antenna in an Radio-Frequency Identification card (RFID), also from PEDOT:PSS and from silver paint. This RFID was projected to operate in a frequency range from approximately 860 MHz to 960 MHz. The antenna made of PEDOT:PSS operated in a distance of 0.45 m, while that of silver varied from 1.6 m at 860 MHz to 4 m at 960 MHz. In an Organic Light Emitting Electrochemical Cell (OLEC) we applied one of the electrodes, a PEDOT:PSS layer, as a transparent electrode by serigraphy on glass substrate for made to replace of ITO. The active layer was a mixture of a poly(ethylene oxide) complexed with lithium salt and a derivative of polyfluorene that is a green emitter. The characteristic curves of current and luminance against the applied external voltage assured us the good performance of the device. Similar result was obtained with the performance of an organic photovoltaic (OPV), in which the active layer was a biphasic system made by poly(3-hexylthiophene) (P3HT) and [6,6]-phenyl-C61-butyric acid methyl ester (PCBM), in which the transparent electrode (PEDOT:PSS) was also printed by serigraphy on glass substrate. In this device we obtained a Fill Factor of 0.47 and an external efficiency of almost 2%.

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