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1	Control and Observation of Solution Phase Dye Molecules Aggregation Effects Hsu, Guo-cheng 29 July 2008 (has links) Luminescent properties of the dye molecules can be influenced by the environments as well as intermolecular interactions. Suitable control the aggregation can be useful for optoelectronic device applications. In this thesis, we investigate the spectroscopic properties of dye molecule, DiI_C18, in solutions. Solvents and concentrations are used to control the degree of aggregation. Absorption and emission are used to probe the properties. We use water, methanol, and ethylene glycol as key solvents to control the aggregation effects, especially the methanol solution mixing with water. As the concentration increased, the change of the absorption spectra are observed, which is caused by the aggregation between molecules. Two types of aggregations: head-to-tail structure and parallel structure, are proposed. Head-to-tail structure behaves red-shifted spectrum, and a corresponding shorter decay lifetime. On the contrary, parallel structure aggregation exhibits blue-shifted absorption spectrum and a longer fluorescence lifetime. Both structures are observed at different period after mixing. Only monomer exists in the methanol solution, even at high concentration. However, after missing with water, parallel structure aggregates are formed. Head-to-tail structure aggregates are formed after a much longer period, usually several hours after the mixing. These aggregates not only have different photo-physical properties. After high light intensity illumination, parallel structures are easier to turn into non-fluorescent structures, while head-to-tail structures last a longer period. Monomer structures exhibit the longest period. This provides additional evidence for the formation of different structures in the mixing solutions. dye molecules aggregation effects
2	New materials for optical information storage Scoffin, Robert A. January 1994 (has links) No description available. 535 Photochromic dye molecules; Fulgides
3	Developments of electrochemistry in Environmental Technology Yasri, Nael Gergi January 2001 (has links) Uses of electrochemical systems in environmental control technology are described for the removal and separation of metals from solution and the destruction of dye molecules in effluents. A novel concentrator cell system for the removal of lead and cadmium from solution is developed. The operation of this system permits the pH-independent recovery of metals from solution by electrodeposition. The formation of complexes with suitable ligands is exploited to achieve the separation of metals by electrochemical methods. The separations of tin, lead and indium from each other, the separation of nickel from cobalt and the separation of copper and palladium from cobalt are used to illustrate the benefits of complex formation. A three-compartment electrodialysis cell for removal of nickel from cobalt exploiting the greater stability of the nickel-EDTA complex compared with the Co-EDTA complex is described. Efficient removal of nickel from cobalt can be achieved but there is a compromise between cobalt purity and the percentage of cobalt transferred to the catholyte chamber for recovery. The anodic oxidation of a number of dye molecules including methylene blue, acid blue 25, reactive blue 2 and reactive blue 15 in chloride solution has been studied. The anodic oxidation of methylene blue results in the formation of seven neutral and two charged intermediates. The main intermediate is identified by X-ray diffraction crystal structure determination and accurate mass spectrometry as the novel compound 4,6-dichloro-7-dimethylamino-3H-phenothiazin-3 -one, (C14HjoCI2N20S) formed by replacement of one of the diirnethylamino groups of methylene blue with oxygen accompanied by regiospecific chlorination of the carbocylic system. The mass spectra of other intermediates formed are interpreted in terms of this structure. An electroadsorption system combining adsorption and electrolytic processes to achieve the elimination of the chlorinated compounds that are formed during the electro-oxidation of methylene blue is also reported. 541 Dye molecules; Separation of metals
4	Studies of interaction of dye molecules with TiO2 Brookite clusters for application in dye sensitized solar cells Elegbeleye, Ife Fortunate 20 September 2019 (has links) PhD (Physics) / Department of Physics / Dye sensitized solar cells (DSSCs) have attracted rapid interest over the recent years with prospect of emerging as a viable alternative to conventional silicon based solar cells. The photoanode of DSSCs comprises of dye molecules anchored to the surface of semiconductors such as TiO2. However, the major drawback of Titanium dioxide (TiO2) is its wide band gap (3.0 eV to 3.2 eV) which limits its photocatalytic activities to the ultraviolet region of the electromagnetic spectrum. Understanding the interaction of dye molecules with the surfaces of TiO2 is crucial for optimizing light-harvesting, photoconversion function and photocurrent densities in DSSCs. The three polymorphs of TiO2 are anatase, brookite and rutile. The optical properties of brookite semiconductor have not been much studied although brookite has been reported to have good photocatalytic properties. In this work, Density functional theory (DFT) computational approach was used through various computational softwares which are CASTEP, GAUSSIAN, GAUSSUM, GPAW, ASE, and AVOGADRO with B3LYP, LANL2DZ, PBE, and GGA functional to explore the photocatalytic properties of the typical ruthenium N3 complex, polyenediphenyl-aniline dye moiety, croconate dye molecules and three modelled surfaces of brookite which are (TiO2)5, (TiO2)8 and (TiO2) 68 for application in DSSCs. We also studied the absorption of the corresponding dye molecules on the three surfaces of brookite TiO2. Our findings showed strong binding ability, good electronic coupling, efficient charge separation, spontaneous electron injection and good spectral properties upon adsorption of the dye molecules to brookite TiO2 semiconductor clusters. Our findings on the optical absorption spectra of ruthenium N3 dye, croconate dye and polyenediphenyl-aniline dye molecule absorbed on (TiO2)5 and (TiO2)8 brookite cluster shows bathocromatic shift of the absorption maxima to higher wavelength and improve optical response of TiO2 brookite cluster. A red spectra shift and absorption over a wide range of the solar spectrum in the visible and near infra-red region of the solar spectrum was achieved upon absorption of the ruthenium N3 complex and polyenediphenyl-aniline dye molecules on (TiO2)5 and (TiO2)8 brookite cluster. The results generally suggest that the absorption of dye molecules on TiO2 brookite cluster improves its spectra responsivity in the UV region and makes it possible to absorb over the whole spectrum range, that is, the UV, visible and near infra – red region of the solar spectrum. Our findings also showed good electron injection kinetics from the dye to TiO2 brookite clusters, which suggests higher photocurrents density and open circuit voltage in DSSCs. / NRF Dye sensitized solar cells Solar spectrum Dye molecules Density functional theory TiO2 brookite cluster 333.7923 Dyes and dyeing Solar energy Solar radiation Titanium dioxide Anastase
5	Electronic Coupling Effects and Charge Transfer between Organic Molecules and Metal Surfaces / Elektronische Kopplungseffekte und Ladungstransfer zwischen organischen Molekülen und Metalloberflächen Forker, Roman 28 January 2010 (has links) (PDF) We employ a variant of optical absorption spectroscopy, namely in situ differential reflectance spectroscopy (DRS), for an analysis of the structure-properties relations of thin epitaxial organic films. Clear correlations between the spectra and the differently intense coupling to the respective substrates are found. While rather broad and almost structureless spectra are obtained for a quaterrylene (QT) monolayer on Au(111), the spectral shape resembles that of isolated molecules when QT is grown on graphite. We even achieve an efficient electronic decoupling from the subjacent Au(111) by inserting an atomically thin organic spacer layer consisting of hexa-peri-hexabenzocoronene (HBC) with a noticeably dissimilar electronic behavior. These observations are further consolidated by a systematic variation of the metal substrate (Au, Ag, and Al), ranging from inert to rather reactive. For this purpose, 3,4,9,10-perylenetetracarboxylic dianhydride (PTCDA) is chosen to ensure comparability of the molecular film structures on the different metals, and also because its electronic alignment on various metal surfaces has previously been studied with great intensity. We present evidence for ionized PTCDA at several interfaces and propose the charge transfer to be related to the electronic level alignment governed by interface dipole formation on the respective metals. / Zur Analyse der Struktur-Eigenschafts-Beziehungen dünner, epitaktischer Molekülfilme wird in situ differentielle Reflexionsspektroskopie (DRS) als Variante der optischen Absorptionsspektroskopie verwendet. Klare Zusammenhänge zwischen den Spektren und der unterschiedlich starken Kopplung zum jeweiligen Substrat werden gefunden. Während man breite und beinahe unstrukturierte Spektren für eine Quaterrylen (QT) Monolage auf Au(111) erhält, ist die spektrale Form von auf Graphit abgeschiedenem QT ähnlich der isolierter Moleküle. Durch Einfügen einer atomar dünnen organischen Zwischenschicht bestehend aus Hexa-peri-hexabenzocoronen (HBC) mit einem deutlich unterschiedlichen elektronischen Verhalten gelingt sogar eine effiziente elektronische Entkopplung vom darunter liegenden Au(111). Diese Ergebnisse werden durch systematische Variation der Metallsubstrate (Au, Ag und Al), welche von inert bis sehr reaktiv reichen, untermauert. Zu diesem Zweck wird 3,4,9,10-Perylentetracarbonsäuredianhydrid (PTCDA) gewählt, um Vergleichbarkeit der molekularen Filmstrukturen zu gewährleisten, und weil dessen elektronische Anordnung auf verschiedenen Metalloberflächen bereits eingehend untersucht worden ist. Wir weisen ionisiertes PTCDA an einigen dieser Grenzflächen nach und schlagen vor, dass der Ladungsübergang mit der elektronischen Niveauanpassung zusammenhängt, welche mit der Ausbildung von Grenzflächendipolen auf den entsprechenden Metallen einhergeht. organic semiconductors dye molecules QT HBC PTCDA organic molecular beam epitaxy (OMBE) scanning tunneling microscopy (STM) low energy electron diffraction (LEED) organische Halbleiter Farbstoffmoleküle QT HBC PTCDA organische Molekularstrahlepitaxie differentielle Reflexionsspektroskopie Rastertunnelmikroskopie niederenergetische Elektronenbeugung ddc:530 rvk:VE 6300
6	Electronic Coupling Effects and Charge Transfer between Organic Molecules and Metal Surfaces Forker, Roman 12 January 2010 (has links) We employ a variant of optical absorption spectroscopy, namely in situ differential reflectance spectroscopy (DRS), for an analysis of the structure-properties relations of thin epitaxial organic films. Clear correlations between the spectra and the differently intense coupling to the respective substrates are found. While rather broad and almost structureless spectra are obtained for a quaterrylene (QT) monolayer on Au(111), the spectral shape resembles that of isolated molecules when QT is grown on graphite. We even achieve an efficient electronic decoupling from the subjacent Au(111) by inserting an atomically thin organic spacer layer consisting of hexa-peri-hexabenzocoronene (HBC) with a noticeably dissimilar electronic behavior. These observations are further consolidated by a systematic variation of the metal substrate (Au, Ag, and Al), ranging from inert to rather reactive. For this purpose, 3,4,9,10-perylenetetracarboxylic dianhydride (PTCDA) is chosen to ensure comparability of the molecular film structures on the different metals, and also because its electronic alignment on various metal surfaces has previously been studied with great intensity. We present evidence for ionized PTCDA at several interfaces and propose the charge transfer to be related to the electronic level alignment governed by interface dipole formation on the respective metals. / Zur Analyse der Struktur-Eigenschafts-Beziehungen dünner, epitaktischer Molekülfilme wird in situ differentielle Reflexionsspektroskopie (DRS) als Variante der optischen Absorptionsspektroskopie verwendet. Klare Zusammenhänge zwischen den Spektren und der unterschiedlich starken Kopplung zum jeweiligen Substrat werden gefunden. Während man breite und beinahe unstrukturierte Spektren für eine Quaterrylen (QT) Monolage auf Au(111) erhält, ist die spektrale Form von auf Graphit abgeschiedenem QT ähnlich der isolierter Moleküle. Durch Einfügen einer atomar dünnen organischen Zwischenschicht bestehend aus Hexa-peri-hexabenzocoronen (HBC) mit einem deutlich unterschiedlichen elektronischen Verhalten gelingt sogar eine effiziente elektronische Entkopplung vom darunter liegenden Au(111). Diese Ergebnisse werden durch systematische Variation der Metallsubstrate (Au, Ag und Al), welche von inert bis sehr reaktiv reichen, untermauert. Zu diesem Zweck wird 3,4,9,10-Perylentetracarbonsäuredianhydrid (PTCDA) gewählt, um Vergleichbarkeit der molekularen Filmstrukturen zu gewährleisten, und weil dessen elektronische Anordnung auf verschiedenen Metalloberflächen bereits eingehend untersucht worden ist. Wir weisen ionisiertes PTCDA an einigen dieser Grenzflächen nach und schlagen vor, dass der Ladungsübergang mit der elektronischen Niveauanpassung zusammenhängt, welche mit der Ausbildung von Grenzflächendipolen auf den entsprechenden Metallen einhergeht. info:eu-repo/classification/ddc/530 ddc:530
7	Potential Energy Minimization as the Driving Force for Order and Disorder in Organic Layers / Potentialenergie-Minimierung als Triebfeder für Ordnung und Unordnung in organischen Schichten Wagner, Christian 15 June 2010 (has links) (PDF) The topic of this work is the structural characterization and theoretical modeling of organic single and heterolayers. The growth of sub-monolayers and monolayers (ML) of the two polycyclic aromatic hydrocarbons quaterrylene (QT) and hexa-peri-hexabenzocoronene (HBC) on Ag(111) and Au(111) was investigated. A transition from a disordered, isotropic phase to an ordered phase with increasing coverage was found. The lattice of the ordered phase turned out to be coverage dependent. The intermolecular potential was modeled including Coulomb and van der Waals interaction by a force-field approach. The postulated repulsive character of the potential could be connected to the non-uniform intramolecular charge distribution and to a screening of the van der Waals forces. Furthermore, the influence of the variable lattice constant on the epitaxial growth of HBC was studied. The second part of this work deals with a ML of 3,4,9,10-perylenetetracarboxylic dianhydride (PTCDA) on a ML of HBC. In dependency on the initial lattice constant of HBC, a total of three line-on-line (LOL) and point-on-line coincident phases of PTCDA (with respect to HBC) was found. Following an analysis of the general properties of LOL coincident systems via force-field calculations, a new method to predict the structure of such systems is introduced. / Thema dieser Arbeit ist die strukturelle Charakterisierung von organischen Einfach- und Heterolagen sowie deren theoretische Beschreibung und Modellierung. Es wurden Submonolagen und Monolagen (ML) der polyzyklischen Kohlenwasserstoffe Quaterrylen (QT) und Hexa-peri-hexabenzocoronen (HBC) auf Ag(111) und Au(111) Einkristallen untersucht und ein Übergang von einer ungeordneten, isotropen Phase zu einer geordneten Phase mit steigender Bedeckung beobachtet. Die geordnete Phase wies dabei bedeckungsabhängige Gitterkonstanten auf. Das intermolekulare Potential wurde unter Berücksichtigung von Coulomb und van der Waals Anteilen mittels Kraftfeldmethoden modelliert. Der postulierte repulsive Charakter des Potentials konnte auf die Ladungsverteilung im Molekül und eine Abschwächung des van der Waals Potentials zurückgeführt werden. Weiterhin wurde der Einfluss der variablen HBC Gitterkonstante auf die epitaktische Relation des Gitters zum Metallsubstrat untersucht. Der zweite Teil der Arbeit widmet sich der Untersuchung einer ML 3,4,9,10-Perylenetetracarboxylic dianhydrid (PTCDA) auf einer ML HBC. Dabei wurden, in Abhängigkeit von der HBC Gitterkonstante, insgesamt drei verschiedene Typen von line-on-line bzw. point-on-line Epitaxie nachgewiesen. Im Anschluss an eine Analyse der generellen Eigenschaften solcher epitaktischer Lagen mittels Kraftfeldrechnungen wird eine neue Methode zur Vorhersage der Struktur konkreter Systeme vorgestellt. organic semiconductors dye molecules polycyclic aromatic hydrocarbons (PAHs) QT HBC PTCDA organic molecular beam epitaxy (OMBE) low-energy electron diffraction (LEED) scanning tunneling microscopy (STM) intermolecular repulsion epitaxy physisorption atomic force fields van der Waals force organic-organic heterojunctions Organische Halbleiter Farbstoff-Moleküle Polyzyklische Aromate QT HBC PTCDA Rastertunnelmikroskopie (STM) Epitaxie Physisorption Atomare Kraftfelder Kraftfeldmethoden Van der Waals Kräfte Organisch-organische Heterosysteme ddc:530 rvk:UP 3130
8	Potential Energy Minimization as the Driving Force for Order and Disorder in Organic Layers Wagner, Christian 07 June 2010 (has links) The topic of this work is the structural characterization and theoretical modeling of organic single and heterolayers. The growth of sub-monolayers and monolayers (ML) of the two polycyclic aromatic hydrocarbons quaterrylene (QT) and hexa-peri-hexabenzocoronene (HBC) on Ag(111) and Au(111) was investigated. A transition from a disordered, isotropic phase to an ordered phase with increasing coverage was found. The lattice of the ordered phase turned out to be coverage dependent. The intermolecular potential was modeled including Coulomb and van der Waals interaction by a force-field approach. The postulated repulsive character of the potential could be connected to the non-uniform intramolecular charge distribution and to a screening of the van der Waals forces. Furthermore, the influence of the variable lattice constant on the epitaxial growth of HBC was studied. The second part of this work deals with a ML of 3,4,9,10-perylenetetracarboxylic dianhydride (PTCDA) on a ML of HBC. In dependency on the initial lattice constant of HBC, a total of three line-on-line (LOL) and point-on-line coincident phases of PTCDA (with respect to HBC) was found. Following an analysis of the general properties of LOL coincident systems via force-field calculations, a new method to predict the structure of such systems is introduced.:1 Introduction 2 Experimental Methods 2.1 Organic molecular beam epitaxy 2.2 Scanning tunneling microscopy (STM) 2.3 Low-energy electron diffraction (LEED) 2.4 Molecules and substrates: Basic properties and literature review 2.4.1 3,4,9,10-Perylenetetracarboxylic dianhydride 2.4.2 Hexa-peri-hexabenzocoronene 2.4.3 Quaterrylene 2.4.4 Metal substrates: Au(111) and Ag(111) 3 Theory and Modeling 3.1 Reciprocal space and LEED 3.1.1 Fourier transform and geometrical LEED theory 3.1.2 Kinematic and dynamic LEED theory 3.1.3 Further applications of the Fourier transform 3.2 Computational chemistry 3.2.1 Calculating molecular properties 3.2.2 The atomic force-field method 3.2.3 Potential energy calculations in extended systems 4 Epitaxy in terms of potential energy 5 Interaction of QT and HBC at Sub-ML and ML Coverage 5.1 Experimental results 5.2 Modeling technique 5.3 Results of the model calculation 5.4 Discussion of results 5.5 Conclusion 6 The Ordered Phases of HBC on Ag(111) and Au(111 6.1 Geometrical analysis of epitaxy 6.2 Energetic gain of epitaxial structures 6.3 Comparison to experiment 6.4 Influence of the Au(111) surface reconstruction 6.5 Conclusion 7 Organic Heterosystems of PTCDA and HBC on Au(111) 7.1 PTCDA on Au(111) revisited 7.2 LEED and STM on PTCDA/HBC/Au(111) samples 7.2.1 A “compact” HBC layer substrate 7.2.2 A “loosely packed” HBC layer substrate 7.2.3 Summary of LEED results 7.2.4 STM results 7.3 Epitaxial relations in the system PTCDA/HBC/Au(111) 7.3.1 Geometrical analysis of epitaxy 7.3.2 Energetic gain of epitaxial structures 7.3.3 Mutual alignment of lattices 7.4 Heterosystems of PTCDA and HBC with inverted stacking sequence 8 General Properties of POL and LOL Epitaxy 8.1 A new coordinate system 8.2 Specific properties of the substrate-adsorbate potential 8.3 The “natural order” of the lattice lines 8.4 Prediction of epitaxial growth - a “LOL predictor” 8.4.1 Method 8.4.2 Results 9 General Conclusions and Future Perspectives 9.1 Conclusion 9.2 Outlook Appendix A.1 Conductance in a STM: The 1D WKB model A.2 Extraction of the DOS from STS measurements by means of the 1D WKB model A.3 Practical application of the 1D WKB model A.4 The normalized differential conductivity A.5 A new normalization method / Thema dieser Arbeit ist die strukturelle Charakterisierung von organischen Einfach- und Heterolagen sowie deren theoretische Beschreibung und Modellierung. Es wurden Submonolagen und Monolagen (ML) der polyzyklischen Kohlenwasserstoffe Quaterrylen (QT) und Hexa-peri-hexabenzocoronen (HBC) auf Ag(111) und Au(111) Einkristallen untersucht und ein Übergang von einer ungeordneten, isotropen Phase zu einer geordneten Phase mit steigender Bedeckung beobachtet. Die geordnete Phase wies dabei bedeckungsabhängige Gitterkonstanten auf. Das intermolekulare Potential wurde unter Berücksichtigung von Coulomb und van der Waals Anteilen mittels Kraftfeldmethoden modelliert. Der postulierte repulsive Charakter des Potentials konnte auf die Ladungsverteilung im Molekül und eine Abschwächung des van der Waals Potentials zurückgeführt werden. Weiterhin wurde der Einfluss der variablen HBC Gitterkonstante auf die epitaktische Relation des Gitters zum Metallsubstrat untersucht. Der zweite Teil der Arbeit widmet sich der Untersuchung einer ML 3,4,9,10-Perylenetetracarboxylic dianhydrid (PTCDA) auf einer ML HBC. Dabei wurden, in Abhängigkeit von der HBC Gitterkonstante, insgesamt drei verschiedene Typen von line-on-line bzw. point-on-line Epitaxie nachgewiesen. Im Anschluss an eine Analyse der generellen Eigenschaften solcher epitaktischer Lagen mittels Kraftfeldrechnungen wird eine neue Methode zur Vorhersage der Struktur konkreter Systeme vorgestellt.:1 Introduction 2 Experimental Methods 2.1 Organic molecular beam epitaxy 2.2 Scanning tunneling microscopy (STM) 2.3 Low-energy electron diffraction (LEED) 2.4 Molecules and substrates: Basic properties and literature review 2.4.1 3,4,9,10-Perylenetetracarboxylic dianhydride 2.4.2 Hexa-peri-hexabenzocoronene 2.4.3 Quaterrylene 2.4.4 Metal substrates: Au(111) and Ag(111) 3 Theory and Modeling 3.1 Reciprocal space and LEED 3.1.1 Fourier transform and geometrical LEED theory 3.1.2 Kinematic and dynamic LEED theory 3.1.3 Further applications of the Fourier transform 3.2 Computational chemistry 3.2.1 Calculating molecular properties 3.2.2 The atomic force-field method 3.2.3 Potential energy calculations in extended systems 4 Epitaxy in terms of potential energy 5 Interaction of QT and HBC at Sub-ML and ML Coverage 5.1 Experimental results 5.2 Modeling technique 5.3 Results of the model calculation 5.4 Discussion of results 5.5 Conclusion 6 The Ordered Phases of HBC on Ag(111) and Au(111 6.1 Geometrical analysis of epitaxy 6.2 Energetic gain of epitaxial structures 6.3 Comparison to experiment 6.4 Influence of the Au(111) surface reconstruction 6.5 Conclusion 7 Organic Heterosystems of PTCDA and HBC on Au(111) 7.1 PTCDA on Au(111) revisited 7.2 LEED and STM on PTCDA/HBC/Au(111) samples 7.2.1 A “compact” HBC layer substrate 7.2.2 A “loosely packed” HBC layer substrate 7.2.3 Summary of LEED results 7.2.4 STM results 7.3 Epitaxial relations in the system PTCDA/HBC/Au(111) 7.3.1 Geometrical analysis of epitaxy 7.3.2 Energetic gain of epitaxial structures 7.3.3 Mutual alignment of lattices 7.4 Heterosystems of PTCDA and HBC with inverted stacking sequence 8 General Properties of POL and LOL Epitaxy 8.1 A new coordinate system 8.2 Specific properties of the substrate-adsorbate potential 8.3 The “natural order” of the lattice lines 8.4 Prediction of epitaxial growth - a “LOL predictor” 8.4.1 Method 8.4.2 Results 9 General Conclusions and Future Perspectives 9.1 Conclusion 9.2 Outlook Appendix A.1 Conductance in a STM: The 1D WKB model A.2 Extraction of the DOS from STS measurements by means of the 1D WKB model A.3 Practical application of the 1D WKB model A.4 The normalized differential conductivity A.5 A new normalization method info:eu-repo/classification/ddc/530 ddc:530

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