293 resultados para Electroluminescence


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Fluorene-based polymers are widely known materials due to a combination of features such as photoluminescence and electroluminescence, oxidative stability, and film-forming ability. However, studies reporting nonlinear optical properties in this class of conjugated polymer are scarce. Here, we report a new class of polyfluorene derivatives poly(9,9'-n-dihexyl-2,7-fluorenedilvinylene-alt-1,4-phenylenevinylene), poly(9,9'-n-dihexyl-2,7-fluorenedilvinylene-alt-2,5-thiophene), and poly[(9,9-di-hexylfluorenediylvinylene-alt-1,4-phenylenevinylene)-co-((9,9'-(3-t-butylpropanoate) fluorene-1,4-phenylene)] displaying high two-photon absorption (2PA) in the spectral range from a 490 to 1100 nm. The 2PA cross-section peak values for these materials are as high as 3000 Goppert Mayer (1 GM = 1 x 10-50 cm4 s/photon), which is related to the high degree of conjugation along the polymer backbone. The polymers that were used in this study presented a strong two-photon luminescence and also displayed optical limiting behavior, which, in combination with their well-established properties, make them highly suitable for nonlinear optical devices. (C) 2011 Wiley Periodicals, Inc. J Polym Sci Part B: Polym Phys 50: 148153, 2012

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The synthesis and structural characterization of a europium complexed fluorene-bipyridine copolymer are described. A level of ion insertion of 80% in molar basis was achieved, and theoretical calculations showed that it required a twist of 179 degrees (49 kJ) between the pyridine units. Spectroscopy data showed that no electronic coupling between the main backbone and the complexation sites had occurred, but these hindered the interchain aggregation observed in the non complexed polymer. Preliminary electroluminescence studies showed that the EL and PL spectra are consistent, and that the ion had a trapping effect in the charge transport. (C) 2011 Elsevier B.V. All rights reserved.

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In a homemade UV-Ozone generator, different ignition tubes extracted from HID mercury vapor lamps were investigated, namely: 80, 125, 250 and 400 watts. The performance of the generator in function of the type of the ignition lamp was monitored by the measurements of the ozone concentration and the temperature increment. The results have shown that the 400 W set up presented the highest ozone production, which was used in the treatment of indium tin oxide (ITO) films. Polymer light emitting diodes were assembled using ITO films, treated for 10, 20 and 30 min, as an anode. The overall results indicate improvement of the threshold voltage (reduction) and electroluminescence of these devices.

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A new series of donor acceptor copolymers were synthesized via the Witting route and applied as an active layer in organic thin-films solar cells. These copolymers are composed of fluorene thiophene and phenylene thiophene units. The ratio between those was systematically varied, and copolymers containing 0%, 50%, and 75% of phenylene thiophene were characterized and evaluated when used in photovoltaic devices. The copolymers' composition, photophysical, electrical, and morphological properties are addressed and correlated with device performance. The 50% copolymer ratio was found to be the best copolymer of the series, yielding a power conversion efficiency (PCE) under air mass (AM) 1.5 conditions of 2.4% in the bilayer heterojunction with the C-60 molecule. Aiming at flexible electronics applications, solutions based on the heterojunction of this copolymer with PCBM (6,6-phenyl-C-61-butyric acid methyl ester) were also successfully deposited using an inkjet printing method and used as an active layer in solar cells.

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The synthesis and photoluminescent properties of Ln(III)-thenoyltrifluoroacetonate and dibenzoylmethanate complexes (Ln = Eu(III) and Gd(III) ions) containing tertiary amides such as dimethylacetamide (DMA), dimethylformamide (DMF), and dimethylbenzamide (DMB) as neutral ligands are reported. The Ln complexes were characterized by elemental analysis, complexometric titration with EDTA, and infrared spectroscopy. Single-crystal X-ray structure data of the [Eu(DBM)(3).(DMA)] compound indicates that this complex crystallizes in the triclinic system, space group PT with the following cell parameters: a = 10.2580(3) angstrom, b = 10.3843(2) angstrom, c= 22.3517(5) angstrom, alpha = 78.906(2)degrees, beta = 78.049(2)degrees, lambda= 63.239(2)degrees, V= 2066.41(9) angstrom(3), and Z = 2. The coordination polyhedron for the Eu(III) complex may be described as an approximate C-2v distorted monocapped trigonal prism. The optical properties of the Eu(III) complexes were studied based on the intensity parameters and luminescence quantum yield (q). The values of the ohm(2) parameter of the Eu-DBM complexes are larger than those for the Eu-TTA complexes, indicating that the Eu(III) ion is in a more polarizable chemical environment in the former case. The geometries of the complexes have been optimized by using the Sparkle Model, and the results have been used to perform theoretical predictions of the ligand-to-metal energy transfer via direct and exchange Coulomb mechanisms. (C) 2012 Elsevier Ltd. All rights reserved.

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Zusammenfassung: Im Rahmen der Arbeit wird über die Darstellung neuartiger, konjugierter Polyarylene mit Leiterstruktur berichtet. Über eine zweistufige Synthese wurde ein ethylenüberbrücktes Leiterpolymer (LPDP) hergestellt. Dabei wurde das Vorläuferpolymer mit Samarium(II)jodid unter milden Bedingungen zum Leiterpolymeren cyclisiert. Erste Untersuchungen zeigen, daß LPDP im Gegensatz zum 'gewinkelten Polyacen' eine sehr vielversprechende Elektrolumineszenz-Eigenschaft besitzt. Durch den Einbau chiraler Alkylsubstituenten in entsprechenden meta-Phenylen-Analoga der Leiterpolymere vom Polyacen-Typ wurde versucht, eine Vorzugsdrehrichtung der helikalen Leiterpolymere im Laufe der polymeranalogen Cyclisierung zu induzieren. Es zeigt sich, daß für eines der chiralen Derivate ein CD-Effekt im Bereich der Absorption der helikalen Polyacen-Hauptkette auch auf molekularer Ebene auftritt. Weiterhin wird die erfolgreiche Synthese eines neuen, heteroaromatischen Leiterpolymeren, LPPPT, beschrieben, welches alternierend aus 1,4-Phenylen- und 2,5-Thienylen-Einheiten aufgebaut ist. Eine LED in der Konfiguration ITO/LPPPT/Al zeigt eine orange Lichtemission. Die Quanteneffizienz der freien Ladungsträgerbildung für LPPPT wurde in Experimenten zur Ladungstraegergeneration im elektrischen Feld (Coronaentladung) zu ca. 1 % bei 10E7 V/m bestimmt. Letztlich wurde die Synthese eines neuen, heteroaromatischen Leiterpolymeren mit Carbazol-Einheiten, LPPPC, in der Hauptkette beschrieben, das alternierend aus 1,4-Phenylen- und Carbazol-3,6-diyl-Einheiten aufgebaut ist. Untersuchungen am LPPPC ergaben, daß das Polymer gute Lochleitereigenschaften besitzt, daneben weisen dünne Filme von LPPPC auch photovoltaische Eigenschaften auf.

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Die vorliegende Arbeit untersucht mittels lichtunterstützter Tunnelmikroskopie (STM) den Elektronentransport in farbstoffbedeckten, nanoporösen TiO2-Schichten, die in photoelektrochemischen Solarzellen eingesetzt werden. Transportrelevante Eigenschaften wie die elektronische Zustandsdichte sowie lichtinduzierte Vorgänge wie der Aufbau einer lichtinduzierten Oberflächenladung und lokale Photoströme werden ortsaufgelöst gemessen. Für einen möglichen Einsatz in lichtunterstützter Tunnelmikroskopie werden desweiteren Gold-Nanopartikel auf einer Amino-Hexanthiol-Monolage auf Coulomb-Blockaden untersucht. Den zweite Schwerpunkt stellen methodische Arbeiten zur Messung optischer Nahfelder in STM-Experimenten dar. Erstens sollen die Vorteile von Apertur- und aperturloser optischer Rasternahfeld-Mikroskopie mit komplett metallisierten Faserspitzen verbunden werden, die durch die Faser beleuchtet werden. Es gelingt nicht, theoretisch vorhergesagte hohe optische Auflösungen zu bestätigen. Zweitens werden transparente Spitzen aus Sb-dotiertem Zinnoxid erfolgreich als Tunnelspitzen getestet. Die Spitzen ermöglichen STM-Elektrolumineszenz-Experimente zur Charakterisierung optischer Nahfelder, ohne diese durch eine metallische Spitze zu beeinträchtigen. In einer STM-Studie wird das Selbstorganisations-Verhalten von Oktanthiol und Oktandithiol auf Au(111) aus Ethanol untersucht. Bei geringer relativer Konzentration der Dithiole (1:2000), bildet sich eine Phase liegender Dithiole, deren Ordnung durch die Präsenz der Oktanthiole katalysiert wird. Schließlich wird ein als 'dynamische Tunnelmikroskopie' bezeichneter Modus für die Tunnelmikroskopie in elektrisch leitfähiger Umgebung erfolgreich getestet, der zur Unterdrückung des elektrochemischen Leckstromanteils die Ableitung des Stroms nach dem Abstand als STM-Abstandssignal verwendet.

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Homo-oligofluorenes (OFn), polyfluorenes (PF2/6) and oligofluorenes with one fluorenenone group in the center (OFnK) were synthesized. They were used as model compounds to understand of the structure-property relationships of polyfluorenes and the origin of the green emission in the photoluminescence (after photooxidation of the PFs) and the electroluminescence (EL) spectra. The electronic, electrochemical properties, thermal behavior, supramolecular self-assembly, and photophysical properties of OFn, PF2/6 and OFnK were investigated. Oligofluorenes with 2-ethylhexyl side chain (OF2-OF7) from the dimer up to the heptamer were prepared by a series of stepwise transition metal mediated Suzuki and Yamamoto coupling reactions. Polyfluorene was synthesized by Yamamoto coupling of 2,7-dibromo-9,9-bis(2-ethylhexyl)fluorene. Oligofluorenes with one fluorenone group in the center (OF3K, OF5K, OF7K) were prepared by Suzuki coupling between the monoboronic fluorenyl monomer, dimer, trimer and 2, 7-dibromofluorenone. The electrochemical and electronic properties of homo-oligofluorenes (OFn) were systematically studied by several combined techniques such as cyclic voltammetry, differential pulse voltammetry, UV-vis absorption spectroscopy, steady and time-resolved fluorescence spectroscopy. It was found that the oligofluorenes behave like classical conjugated oligomers, i.e., with the increase of the chain-length, the corresponding oxidation potential, the absorption and emission maximum, ionization potential, electron affinity, band gap and the photoluminescence lifetime displayed a very good linear relation with the reciprocal number of the fluorene units (1/n). The extrapolation of these linear relations to infinite chain length predicted the electrochemical and electronic properties of the corresponding polyfluorenes. The thermal behavior, single-crystal structure and supramolecular packing, alignment properties, and molecular dynamics of the homo-oligofluorenes (OFn) up to the polymer were studied using techniques such as TGA, DSC, WAXS, POM and DS. The OFn from tetramer to heptamer show a smectic liquid crystalline phase with clearly defined isotropization temperature. The oligomers do show a glass transition which exhibits n-1 dependence and allows extrapolation to a hypothetical glass transition of the polymer at around 64 °C. A smectic packing and helix-like conformation for the oligofluorenes from tetramer to heptamer was supported by WAXS experiments, simulation, and single-crystal structure of some oligofluorene derivatives. Oligofluorenes were aligned more easily than the corresponding polymer, and the alignability increased with the molecular length from tetramer to heptamer. The molecular dynamics in a series of oligofluorenes up to the polymer was studied using dielectric spectroscopy. The photophysical properties of OFn and PF2/6 were investigated by the steady-state spectra (UV-vis absorption and fluorescence spectra) and time-resolved fluorescence spectra both in solution and thin film. The time-resolved fluorescence spectra of the oligofluorenes were measured by streak camera and gate detection technique. The lifetime of the oligofluorenes decreased with the extension of the chain-length. No green emission was observed in CW, prompt and delayed fluorescence for oligofluorenes in m-THF and film at RT and 77K. Phosphorescence was observed for oligofluorenes in frozen dilute m-THF solution at 77K and its lifetime increased with length of oligofluorenes. A linear relation was obtained for triplet energy and singlet energy as a function of the reciprocal degree of polymerization, and the singlet-triplet energy gap (S1-T1) was found to decrease with the increase of degree of polymerization. Oligofluorenes with one fluorenone unit at the center were used as model compounds to understand the origin of the low-energy (“green”) emission band in the photoluminescence and electroluminescence spectra of polyfluorenes. Their electrochemical properties were investigated by CV, and the ionization potential (Ip) and electron affinity (Ea) were calculated from the onset of oxidation and reduction of OFnK. The photophysical properties of OFnK were studied in dilute solution and thin film by steady-state spectra and time-resolved fluorescence spectra. A strong green emission accompanied with a weak blue emission were obtained in solution and only green emission was observed on film. The strong green emission of OFnK suggested that rapid energy transfer takes place from higher energy sites (fluorene segments) to lower energy sites (fluorenone unit) prior to the radiative decay of the excited species. The fluorescence spectra of OFnK also showed solvatochromism. Monoexponential decay behaviour was observed by time-resolved fluorescence measurements. In addition, the site-selective excitation and concentration dependence of the fluorescence spectra were investigated. The ratio of green and blue emission band intensities increases with the increase of the concentration. The observed strong concentration dependence of the green emission band in solution suggests that increased interchain interactions among the fluorenone-containing oligofluorene chain enhanced the emission from the fluorenone defects at higher concentration. On the other hand, the mono-exponential decay behaviour and power dependence were not influenced significantly by the concentration. We have ruled out the possibility that the green emission band originates from aggregates or excimer formation. Energy transfer was further investigated using a model system of a polyfluorene doped by OFnK. Förster-type energy transfer took place from PF2/6 to OFnK, and the energy transfer efficiency increased with increasing of the concentration of OFnK. Efficient funneling of excitation energy from the high-energy fluorene segments to the low-energy fluorenone defects results from energy migration by hopping of excitations along a single polymer chain until they are trapped on the fluorenone defects on that chain or transferred onto neighbouring chains by Förster-type interchain energy transfer process. These results imply that the red-shifted emission in polyfluorenes can originate from (usually undesirable) keto groups at the bridging carbon atoms-especially if the samples have been subject to photo- or electro-oxidation or if fluorenone units are present due to an improper purification of the monomers prior to polymerization.

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Im Rahmen dieser Arbeit wurden Darstellung und elektronische Anwendungsmöglichkeiten von neuartigen stickstoff- und damit elektronenreichen Poly(para-phenylenen) untersucht. Der Teilbereich „Polycarbazole“ befasst sich mit der Synthese von konjugierten (Stufen)leiterpolymeren auf der Basis von Carbazol. Dazu wurde ein neuer und effizienter Syntheseweg zur Gewinnung von 2,7-Dibromcarbazol entwickelt. Durch die weitere Funktionalisierung von 2,7-Dibromcarbazol gelang es, elektronenreiche Leiterpolymere zu gewinnen, die eine grüne Emissionsfarbe aufwiesen. Mit der Verwendung von R = 2-Decyltetradecyl als löslichkeitsfördernder Seitenkette in einem Poly(2,7-carbazol) konnte erstmals ein hochmolekulares Polycarbazol gewonnen werden. Dieses gut lösliche Poly(2,7-carbazol) erwies sich als ein exzellentes Donatormaterial in Solarzellen, welches in Kombination mit dem Farbstoff PDI eine effiziente Solarzelle ergab. Eine OLED mit einem neuartigen arylierten Polycarbazol als Emittermaterial zeigte eine sehr niedrige Turn-on-Spannung und eine intensive blaue EL-Emission. Das Kapitel über imidazolhaltige Poly(para-phenylene) und Discoten stellt die Darstellung von planarisierten Bisimidazolen vor, welche in hohen Ausbeuten durch eine intramolekulare Buchwald-Reaktion zwischen den Imidazolringen und der zentralen Terphenyleinheit durchgeführte wurde. Die dreistufige Darstellung der Discoten aus einem Terephthalaldehyd-Derivat und einem Benzil erlaubt eine einfache sowie variable Einführung von löslichkeitsfördernden Alkylsubstituenten. Auf diese Weise ist der Zugang zu einer völlig neuartigen Klasse an discotischen Materialien möglich, die eine Kombination aus Discoten auf der Basis von Benzolringen (wie z.B. HBC) mit Heteroaromaten darstellen. Die gewonnenen scheibenförmigen Bisimidazole wiesen dementsprechend auf Selbstanordnung zurückzuführende kolumnare Anordnungen und hexagonale Überstrukturen auf. Im dritten Themengebiet wird der Einbau eines Phthalimidchromophors direkt in das Rückgrad von Polyanilin vorgestellt. Da jegliche Veränderung des Oxidationsgrades zu einer unterschiedlichen Donatorfähigkeit des Polyanilinhauptkette führt, variiert in Abhängigkeit davon das Absorptionsverhalten des eingebauten Farbstoffes. Durch die Einführung des Phthalimidchromophores war es zudem möglich, ein leitfähiges Polymer zu erhalten, das im Gegensatz zum nicht-fluoreszierenden Polyanilin eine intensive gelbe Fluoreszenz (lmax = 547 nm) aufweist.

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A series of oligo-phenylene dendronised conjugated polymers was prepared. The divergent synthetic approach adopted allowed for the facile synthesis of a range of dendronised monomers from a common intermediate, e.g. first and second generation fluorene. Only the polymerisation of the first generation and alkylarylamine substituted dendronised fluorene monomers yielded high molecular weight materials, attributed to the low solubility of the remaining dendronised monomers. The alkylarylamine substituted dendronised poly(fluorene) was incorporated into an organic light emitting diode (OLED) and exhibited an increased colour stability in air compared to other poly(fluorenes). The concept of dendronisation was extended to poly(fluorenone), a previously insoluble material. The synthesis of the first soluble poly(fluorenone) was achieved by the incorporation of oligo-phenylene dendrons at the 4-position of fluorenone. The dendronisation of fluorenone allowed for a polymer with an Mn of 4.1 x 104 gmol-1 to be prepared. Cyclic voltammetry of the dendronised poly(fluorenone) showed that the electron affinity of the polymer was high and that the polymer is a promising n-type material. A dimer and trimer of indenofluorene (IF) were prepared from the monobromo IF. These oligomers were investigated by 2-dimensional wide angle x-ray spectroscopy (2D-WAXS), polarised optical microscopy (POM) and dielectric spectroscopy, and found to form highly ordered smetic phases. By attaching perylene dye as the end-capper on the IF oligomers, molecules that exhibited efficient Förster energy transfer were obtained. Indenofluorene monoketone, a potential defect structure for IF based OLED’s, was synthesised. The synthesis of this model defect structure allowed for the long wavelength emission in OLED’s to be identified as ketone defects. The long wavelength emission from the indenofluorene monoketone was found to be concentration dependent, and suggests that aggregate formation is occurring. An IF linked hexa-peri-hexabenzocoronene (HBC) dimer was synthesised. The 2D-WAXS images of this HBC dimer demonstrate that the molecule exhibits intercolumnar organisation perpendicular to the extrusion direction. POM images of mixtures of the HBC dimer mixed with an HBC with a low isotropic temperature demonstrated that the HBC dimer is mixing with the isotropic HBC.

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In this thesis, I report on a comprehensive study about the photo-physical properties both in solution and in solid-state of a new thiophene based material (2,2’-(2,2’-bithiophene-5,5’-diyl)bis(5-butyl-5H-thieno[2,3-c]pyrrole-4,6)-dione (T4DIM) which shows an ambipolar semiconducting behavior together with electroluminescence in single-layer OLET device architecture[14

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Organic molecular semiconductors are subject of intense research for their crucial role as key components of new generation low cost, flexible, and large area electronic devices such as displays, thin-film transistors, solar cells, sensors and logic circuits. In particular, small molecular thienoimide (TI) based materials are emerging as novel multifunctional materials combining a good processability together to ambipolar or n-type charge transport and electroluminescence at the solid state, thus enabling the fabrication of integrated devices like organic field effect transistors (OFETs) and light emitting transistor (OLETs). Given this peculiar combination of characteristics, they also constitute the ideal substrates for fundamental studies on the structure-property relationships in multifunctional molecular systems. In this scenario, this thesis work is focused on the synthesis of new thienoimide based materials with tunable optical, packing, morphology, charge transport and electroluminescence properties by following a fine molecular tailoring, thus optimizing their performances in device as well as investigating and enabling new applications. Investigation on their structure-property relationships has been carried out and in particular, the effect of different π-conjugated cores (heterocycles, length) and alkyl end chain (shape, length) changes have been studied, obtaining materials with enhanced electron transport capability end electroluminescence suitable for the realization of OFETs and single layer OLETs. Moreover, control on the polymorphic behaviour characterizing thienoimide materials has been reached by synthetic and post-synthetic methodologies, developing multifunctional materials from a single polymorphic compound. Finally, with the aim of synthesizing highly pure materials, simplifying the purification steps and avoiding organometallic residues, procedures based on direct arylation reactions replacing conventional cross-couplings have been investigated and applied to different classes of molecules, bearing thienoimidic core or ends, as well as thiophene and anthracene derivatives, validating this approach as a clean alternative for the synthesis of several molecular materials.

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Polypyridylkomplexe von Ruthenium(II) besitzen eine Vielzahl von Anwendungen, z. B. in Farbstoff-sensibilisierten Solarzellen und als Photokatalysatoren. [Ru(bpy)3]2+ ist einer der prominentesten Ruthenium(II)-Komplexe und besitzt langlebige angeregte 3MLCT-Zustände mit einer Lebensdauer von 1 µs und einer Lumineszenz-Quantenausbeute von 10%. [Ru(bpy)3]2+ ist chiral und kann Stereoisomere bilden, wenn die Liganden unsymmetrisch substituiert sind oder im Falle von oligonuklearen rac/meso-Komplexen. Bis-tridentate Komplexe wie [Ru(tpy)2]2+ sind achiral und umgehen damit unerwünschte Stereoisomere. [Ru(tpy)2]2+ besitzt jedoch enttäuschende photophysikalische Eigenschaften mit einer 3MLCT-Lebensdauer von nur etwa 0.2 ns und einer Quantenausbeute von ≤ 0.0007%. Die Anbringung von Substituenten an [Ru(tpy)2]2+ sowie die Aufweitung der Liganden-Bisswinkel auf 90° bewirken deutlich verbesserte Eigenschaften der emittierenden 3MLCT-Zustände. rnDieser Strategie folgend wurden in der vorliegenden Arbeit neue bis-tridentate Ruthenium(II)-Komplexe entwickelt, synthetisiert und charakterisiert. Durch Anbringen von Ester-Substituenten und Verwenden von Liganden mit erweiterten Bisswinkeln konnten 3MLCT-Lebensdauern von bis zu 841 ns und Quantenausbeuten von bis zu 1.1% erreicht werden. Die neuen bis-tridentaten Komplexe weisen eine deutlich erhöhte Photostabilität im Vergleich zu tris-bidentatem [Ru(bpy)3]2+ auf. rnDie Komplexe wurden als Emitter in Licht-emittierenden elektrochemischen Zellen eingebaut und zeigen Elektrolumineszenz mit einer tiefroten Farbe, die bis ins NIR reicht. Ebenso wurden die Komplexe als Lichtsammler in Farbstoff-sensibilisierten Solarzellen getestet und erreichen Licht-zu-Energie-Effizienzen von bis zu 0.26%. rnDinukleare, stereochemisch einheitliche Ruthenium(II)-Komplexe wurden oxidiert um die Metall-Metall-Wechselwirkung zwischen Ru(II) und Ru(III) in der einfach oxidierten Spezies zu untersuchen. Die unterschiedlichen Redoxeigenschaften der beiden Rutheniumzentren in den verwendeten dinuklearen Verbindungen führt zu einer valenzlokalisierten Situation in der keine Metall-Metall-Wechselwirkung beobachtet wird. Ebenso wurde die Oxidation eines einkernigen Ruthenium(II)-Komplexes sowie dessen spontane Rückreduktion untersucht.rnEnergietransfersysteme wurden mittels Festphasensynthese hergestellt. Dabei ist ein Bis(terpyridin)ruthenium(II)-Komplex als Energie-Akzeptor über eine unterschiedliche Anzahl an Glycineinheiten mit einem Cumarin-Chromophor als Energie-Donor verknüpft. Bei einer kleinen Zahl an Glycineinheiten (0, 1) findet effektiver Energietransfer vom Cumarin- zum Ruthenium-Chromophor statt, wogegen bei zwei Glycineinheiten ein effektiver Energietransfer verhindert ist.rnLicht-induzierte Ladungstrennung wurde erreicht, indem Bis(terpyridin)ruthenium(II)-Komplexe als Chromophore in einem Donor-Chromophor-Akzeptor-Nanokomposit eingesetzt wurden. Dabei wurde ein Triphenylamin-enthaltendes Blockcopolymer als Elektronendonor und ZnO-Nanostäbchen als Elektronenakzeptor verwendet. Bei Bestrahlung des Chromophors werden Elektronen in die ZnO-Nanostäbchen injiziert und die Elektronenlöcher wandern in das Triphenylamin-enthaltende Blockcopolymer. rnrn

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There has been significant research in the study of in-plane charge-carrier transport in graphene in order to understand and exploit its unique electrical properties; however, the vertical graphene–semiconductor system also presents opportunities for unique devices. In this letter, we investigate the epitaxial graphene/p-type 4H-SiC system to better understand this vertical heterojunction. The I–V behavior does not demonstrate thermionic emission properties that are indicative of a Schottky barrier but rather demonstrates characteristics of a semiconductor heterojunction. This is confirmed by the fitting of the temperature-dependent I–V curves to classical heterojunction equations and the observation of band-edge electroluminescence in SiC.

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In this paper, a model for intermediate band solar cells is built based on the generally understood physical concepts ruling semiconductor device operation, with special emphasis on the behavior at low temperature. The model is compared to JL-VOC measurements at concentrations up to about 1000 suns and at temperatures down to 20 K, as well as measurements of the radiative recombination obtained from electroluminescence. The agreement is reasonable. It is found that the main reason for the reduction of open circuit voltage is an operational reduction of the bandgap, but this effect disappears at high concentrations or at low temperatures.