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1	Two-photon 3d Optical Data Storage Via Fluorescence Modulation Of Fluorene Dyes By Photochromic Diarylethenes Corredor, Claudia 01 January 2007 (has links) Three-dimensional (3D) optical data storage based on two-photon processes provides highly confined excitation in a recording medium and a mechanism for writing and reading data with less cross talk between multiple memory layers, due to the quadratic dependence of two photon absorption (2PA) on the incident light intensity. The capacity for highly confined excitation and intrinsic 3D resolution affords immense information storage capacity (up to 1012 bits/cm3). Recently, the use of photochromic materials for 3D memory has received intense interest because of several major advantages over current optical systems, including their erasable/rewritable capability, high resolution, and high sensitivity. This work demonstrates a novel two-photon 3D optical storage system based on the modulation of the fluorescence emission of a highly efficient two-photon absorbing fluorescent dye (fluorene derivative) and a photochromic compound (diarylethene). The feasibility of using efficient intermolecular Förster Resonance Energy Transfer (RET) from the non-covalently linked two-photon absorbing fluorescent fluorene derivative to the photochromic diarylethene as a novel read-out method in a two-photon optical data storage system was explored. For the purpose of the development of this novel two-photon 3D optical storage system, linear and two-photon spectroscopic characterization of commercial diarylethenes in solution and in a polymer film and evidence of their cyclization (O→C) and cycloreversion (C→O) reactions induced by two-photon excitation were undertaken. For the development of a readout method, Resonance Energy Transfer (RET) from twophoton absorbing fluorene derivatives to photochromic compounds was investigated under one and two-photon excitation. The Förster's distances and critical acceptor concentrations were determined for non-bound donor-acceptor pairs in homogeneous molecular ensembles. To the best of my knowledge, modulation of the two-photon fluorescence emission of a dye by a photochromic diarylethene has not been reported as a mechanism to read the recorded information in a 3D optical data storage system. This system was demonstrated to be highly stable and suitable for recording data in thick storage media. The proposed RET-based readout method proved to be non-destructive (exhibiting a loss of the initial fluorescence emission less than 20% of the initial emission after 10,000 readout cycles). Potential application of this system in a rewritable-erasable optical data storage system was proved. As part of the strategy for the development of diarylethenes optimized for 3D optical data storage, derivatives containing Ï€-conjugated fluorene molecules were synthesized and characterized. The final part of this reasearch demonstrated the photostability of fluorine derivatives showing strong molecular polarizability and high fluorescence quantum yields. These compounds are quite promising for application in RET-based two-photon 3D optical data storage. Hence, the photostability of these fluorene derivatives is a key parameter to establish, and facilitates their full utility in critical applications. diarylethenes optical data storage two-photon absorption resonance energy transfer photochromic materials fluorene derivatives Chemistry
2	Simulation Of Photochromic Compounds Using Density Functional Theory Methods Patel, Pansy 01 January 2010 (has links) This Thesis describes the systematic theoretical study aimed at prediction of the essential properties for the functional organic molecules that belong to diarylethene (DA) family of compounds. Diarylethenes present the distinct ability to change color under the influence of light, known as photochromism. This change is due to ultrafast chemical transition from open to closed ring isomers (photocyclization). It can be used for optical data storage, photoswitching, and other photonic applications. In this work we apply Density Functional Theory methods to predict 6 of the related properties: (i) molecular geometry; (ii) resonant wavelength; (iii) thermal stability; (iv) fatigue resistance; (v) quantum yield and (vi) nanoscale organization of the material. In order to study sensitivity at diode laser wavelengths, we optimized geometry and calculated vertical absorption spectra for a benchmark set of 28 diarylethenes. Bond length alternation (BLA) parameters and maximum absorption wavelengths (λmax) are compared to the data presently available from X-ray diffraction and spectroscopy experiments. We conclude that TD-M05/6-31G/PCM//M05-2X/6-31G/PCM level of theory gives the best agreement for both the parameters. For our predictions the root mean square deviation (RMSD) are below 0.014 Å for the BLAs and 25 nm for λmax. The polarization functions in the basis set and solvent effects are both important for this agreement. Next we consider thermal stability. Our results suggest that UB3LYP and UM05-2X functionals predict the activation barrier for the cycloreversion reaction within 3-4 kcal/mol from experimental value for a set of 7 photochromic compounds. We also study thermal fatigue, defined as the rate of undesirable photochemical side reactions. In order to predict the kinetics of photochemical fatigue, we investigate the mechanism of by-product formation. It has been established experimentally that the by-product is formed from the closed isomer; however the mechanism was not known. We found that the thermal by-product pathway involves the bicyclohexane (BCH) ring formation as a stable intermediate, while the photochemical by-product formation pathway may involve the methylcyclopentene diradical (MCPD) intermediate. At UM05-2X/6-31G* level, the calculated barrier between the closed form and the BCH intermediate is 51.2 kcal/mol and the barrier between the BCH intermediate and the by-product 16.2 kcal/mol. Next we investigate two theoretical approaches to the prediction of quantum yield (QY) for a set of 14 diarylethene derivatives at the validated M05-2X/6-31G* theory level. These include population of ground-state conformers and location of the pericycylic minimum on the potential energy surface 2-A state. Finally, we investigate the possibility of nanoscale organization of the photochromic material based on DNA template, as an alternative to the amorphous polymer matrix. Here we demonstrate that Molecular Dynamic methods are capable to describe the intercalation of π-conjugated systems between DNA base pairs and accurately reproduced the available photophysical properties of these nanocomposites. In summary, our results are in good agreement with the experimental data for the benchmark set of molecules we conclude that Density Functional Theory methods could be successfully used as an important component of material design strategy in prediction of accurate molecular geometry, absorption spectra, thermal stability of isomers, fatigue resistance, quantum yield of photocyclization and photophysical properties of nanocomposites. Photochromism Diarylethenes Electrocyclic Reactions Density Functional Theory Optical Data Storage Chemistry
3	Synthèse et étude de nouveaux di(hétéroaryl)éthènes pour la commutation optique / Synthesis and study of new di(heteroaryl)ethenes for optical commutation Gavrel, Gildas 28 March 2012 (has links) Ce travail présente la synthèse et l’étude d’une nouvelle famille de composés photochromes de type di(hétéroaryl)éthène ainsi que leur utilisation comme ligand pontant en chimie de coordination dans le but d’élaborer des matériaux moléculaires à propriétés photomodulables. Depuis ces dernières années, le photochromisme occupe une place prépondérante dans le développement de nouveaux matériaux photosensible.Ainsi, de nouveaux di(hétéroaryl)éthènes, dérivés de terarylènes, ont été synthétisés et leurs propriétés photochromes ont été étudiées en détail. Ces nouveaux systèmes, baptisés tétrarylènes, ont également permis l’obtention de composés dissymétriques présentant un biphotochromisme exclusif. Enfin, ces tétrarylènes ont pu être utilisés pour la synthèse de complexes mono- et di-nucléaires de Cu(II). Certains cas ont alors révélé l’éjection réversible du métal de la cavité chélatante par étude RPE.Mots clés : photochromisme, diaryléthènes, terarylènes, commutation, Absorption transitoire, chimie de coordination, RPE / This work deals with the synthesis and study of a new family of photochromic di(heteroaryl)ethenes as well as their use as bridging ligand in coordination chemistry in order to design photo-switchable molecular materials. Over the past few years, the interest of the scientific world to photochromism is growing for its potential use in optical memory devices, optoelectronic or any others photonic devices.Thus, new di(heteroaryl)ethenes, structurally close from terarylenes, have been synthesized and their photochromic properties have been studied in depth. These new systems, called tetrarylènes, enable us to obtain biphotochromic compounds, introducing dissymmetry in the structure. Synthesis of mono- and di-nuclear copper(II) complexes can be performed using these tetrarylenes. Some cases revealed, by EPR study, the reversible release and uptake of the metal ion in solution upon irradiation.Key-words : photochromism, diarylethenes, terarylenes, switches, transitory absorption, Coordination chemistry, EPR Photochromisme Diaryléthènes Terarylènes Commutation Absorption transitoire Chimie de coordination RPE Photochromism Diarylethenes Terarylenes Switches Transitory absorption Coordination chemistry EPR
4	Improving the design of diarylethene photoswitches and their exploitation as remote-controlled building blocks Herder, Martin 22 April 2015 (has links) Photochrome Diarylethene haben die einzigartige Eigenschaft, dass ihr pi-Elektronensystem durch den Isomerisierungsprozess stark verändert wird, was zu einer Verschiebung von HOMO und LUMO Niveaus führt. Zur Verwendung von Diarylethenen zur Steuerung von Funktionen, wie katalytische Aktivität, supramolekulare Assoziation oder Ladungstransport, muss die photochrome Baueinheit den spezifischen Anforderungen angepasst und ihre Schalteigenschaften, die Ermüdungsresistenz sowie das Ausmaß der elektronischen Modulation verbessert werden. In dieser Arbeit wird durch systematische Variation der zentralen Komponenten und der terminalen Substituenten eine Serie von elektronisch modulierten Diarylethenen synthetisiert. Durch umfangreiche Untersuchungen zur photochemischen Bildung eines Nebenprodukts, ein Prozess der bei nahezu allen Diarylethenen auftritt, können Strukturen identifiziert werden, die über eine große Zahl von Schaltzyklen ermüdungsresistent sind und gleichzeitig eine hohe strukturelle und synthetische Flexibilität bieten. Weiterhin erlauben bestimmte Substitutions-muster die orthogonale elektro- und photochemische Steuerung des Isomerisierungsprozesses. Durch geeignete strukturelle Modulation wird die Nebenproduktbildung bei der oxidativen Zyklisierungsreaktion unterdrückt und es kann ein Einblick in den zugrunde liegenden Mechanismus erhalten werden. Der Einfluss verschiedener Substitutionsmuster auf das pi Elektronensystem von Diarylethenen wird untersucht und es wird gezeigt, dass HOMO und LUMO Level über einen großen Energiebereich moduliert werden können. Die so erhaltenen elektronisch modulierten Diarylethene werden als aktive Elemente in Licht gesteuerten organischen Dünnschichttransistoren eingesetzt. In einem weiteren Ansatz die schaltbaren elektronischen Änderungen in Diarylethenen zu nutzen, wird ein potentiell katalytisch aktives Guanidin mit der photochromen Einheit gekoppelt, mit dem Ziel einen photoschaltbaren Organokatalysator zu konstruieren. / Photochromic diarylethenes have the unique property that the pi-electronic structure of their molecular backbone significantly alters during the isomerization process, resulting in a marked shift of HOMO and LUMO levels. In order to employ diarylethenes for the reversible light-controlled manipulation of specific functions, such as catalytic activity, association behavior, or charge transport, the photochromic scaffold has to be improved in terms of its switching efficiency, fatigue resistance, and extent of electronic modulation. In this work, a series of diarylethenes is synthesized by systematically varying the constituents of the hexatriene core and the terminal substituents. By the in-depth characterization of the photochemical reaction to a by-product, an ubiquitous phenomenon of diarylethene photochromism, fatigue resistant structures are identified that allow for the reliable operation of the photochrome over many switching cycles and at the same time guarantee a high degree of structural and synthetic flexibility. Furthermore, a distinct substitution pattern is found to enable the orthogonal electro- and photochemically mediated isomerization of diarylethenes. By proper modulation of the structure, the fatigue observed during the oxidative cyclization reaction is minimized and insights into the underlying mechanism are gained. The impact of different substitution patterns on the pi-electronic structure of the diarylethene core is studied and it is shown that HOMO and LUMO levels can be tuned over a broad energy range. The electronically tuned diarylethenes are applied as active building blocks in light-controllable organic thin film transistors. In a second approach to exploit the isomerization induced electronic modulations, a potentially catalytically active guanidine unit is coupled to the diarylethene core in order to construct a photoswitchable organocatalyst. Photochromie Diarylethene Ermüdungsresistenz elektronische Modulation photochromism diarylethenes fatigue resistance electronic modulation 530 Physik 30 Chemie VK 5607 ddc:530
5	Synthèse et études physico-chimiques de nouveaux systèmes photochromiques : Base d' architecture moléculaire pour l' optoélectronique Chabreuil, Lucie 24 February 2012 (has links) Le photochromisme se définit comme une transformation réversible d'une espèce entre deux états dont les spectres d'absorption sont différents. La réversibilité de la réaction peut se faire thermiquement et/ou photochimiquement. Cet effet suscite un grand intérêt pour l'utilisation de ses propriétés dans différentes applications (matériaux à transmission optique variable, mémoires optiques…). Parmi les nombreuses familles de photochromes organiques, les chromènes (benzopyranes et naphtopyranes) et les diaryléthènes, dont le photochromisme procède par électrocyclisation, occupent une place privilégiée. Ces dernières années, l'enjeu est d'utiliser ces unités photochromiques pour élaborer de nouveaux systèmes multichromophores. Dans ce projet, des réactions de couplage de la chimie organométallique ont permis de préfonctionnaliser des unités photochromiques monomères, servant de briques moléculaires pour l'architecture de structures complexes. Ainsi, deux séries de nouveaux systèmes photochromiques ont été élaborés autour de la triphénylamine en modifiant la jonction. Ces systèmes ont ensuite été étudiés en spectroscopie d'absorption électronique et de fluorescence, puis des études préliminaires sous irradiation ont été réalisées afin d'évaluer leur propriétés photochromiques. En parallèle, un diaryléthène substitué par un atome de silicium a été synthétisé en utilisant les micro-ondes, ouvrant de nouvelles perspectives pour des systèmes photochromiques bistables. / The photochromism is defined as a reversible transformation between two states of the molecule. The reversibility can occur thermally and/or photochemically. The intrinsic properties make the photochromic molecular system highly promising for various applications such as optical memory and molecular switches. From the large family of organic photochromic compounds, chromenes (benzopyrans and napthopyrans) and diarylethenes, both involving a ring closure/opening electrocyclic isomerisation, are largely used. In the last decades, a renewal of interest in the synthesis of supramolecular structures have been observed in view of application for optoelectronic devices. In this project, the original idea was to design and synthesize novel star-shaped like molecular architecture having triphenylamine as core block bridging several thermoreversible photochromic units in one molecule. In this context, new series of supramolecular assemblies were synthesized by introducing chromenes units on the core and changing the linkage. Then, their spectroscopic properties were studied by absorption and fluorescence spectroscopy before evaluating their photochromic properties. In a second way, a diarylethene substituted by a silicon atom was synthesized under micro-wave to open an interesting perspective in order to access a new photochromic family. Photochromes Chromènes Diaryléthènes Couplage organométallique Triphénylamine Spectroscopie de fluorescence Propriétés photochromiques Photochromism Chromenes Diarylethenes Organometallic coupling Triphenylamine Absorption spectroscopy Fluorescence spectroscopy Photochromic properties
6	Photocontrolling the Diels-Alder reaction Göstl, Robert 11 November 2014 (has links) Die Aufgabe des synthetischen Chemikers besteht darin neue Moleküle, Bauelemente oder Medikamente aus einfachen Edukten herzustellen. Die wachsende Komplexität dieser synthetischen Produkte bedingt jedoch, dass die Entwicklung der dazu benötigten Werkzeuge ebenso schritthalten muss. Licht ist mit seiner herausragenden räumlichen, zeitlichen und energetischen Auflösung sowie seinem nicht-invasiven Charakter den traditionell verwendeten Stimuli überlegen. In dieser Arbeit wurde durch die Kombination eines molekularen Photoschalters mit der Diels-Alder-Reaktion die Photokontrolle über eine dynamisch-kovalente Reaktion erlangt. Das Ergebnis der Reaktion eines furyl-substituierten Diarylethens mit Maleinimid konnte ausschließlich durch die Bestrahlung mit Licht unterschiedlicher Farbe bestimmt werden. Dieses prototypische System wurde dann unter Erhalt seiner photochemischen Eigenschaften für die Anwendung unter physiologischen Bedingungen weiterentwickelt. Es konnte die photoreversible Freisetzung therapeutisch wirksamer Konzentrationen verschiedener Anti-Tumor-Medikamente in gepufferter, wässriger Lösung bei Körpertemperatur durch bioorthogonales sichtbares Licht ausgelöst werden. Weiterhin wurden die Feinabstimmung der Freisetzung dieser photoschaltbaren Diels-Alder-Addukte und eine ausführliche Untersuchung der Freisetzungs-Dynamiken gezeigt. Hierdurch wurde das System auf eine Stufe gehoben, an der in vivo Anwendungen erwägt werden können. Des Weiteren wurden die Grundlagen zur Implementierung der photokontrollierbaren Diels-Alder-Reaktion in der reversiblen kovalenten Funktionalisierung von Kohlenstoffnanoröhren gelegt. Trotzdem noch keine erfolgreiche Funktionalisierung nachgewiesen werden konnte, wurde durch die Untersuchung der zugrundeliegenden Prinzipien der Weg für die Anwendung fortgeschrittener Techniken zur Modulation physikochemischer Eigenschaften von sp2-Kohlenstoff Allotropen geebnet. / The synthetic chemist’s profession is devoted to the formation of chemical bonds to create new molecules, building blocks, or drugs from basic starting materials. However, the growing complexity of these synthetic products necessitates that the development of the tools to fulfill this task must also keep pace. Light as a stimulus with its superior spatial, temporal, as well as energetic resolution in combination with its non-invasive character outperforms the traditional means to control a chemical reaction, such as heat, pressure, or pH, clearly. In this work, the unprecedented reversible photocontrol over a dynamic covalent reaction was established by the combination of a molecular photoswitch and the well-known Diels-Alder reaction. The outcome of the reaction of a furyl-substituted diarylethene and maleimide could be determined exclusively by illumination with differently colored light. This prototypical system was then advanced for the application under physiological conditions while retaining its superior photochemical properties. The release of therapeutically effective concentrations of different antitumor agents could be photoreversibly triggered in buffered, aqueous solution at body temperature employing bioorthogonal visible light. It is shown how the release properties of these photoswitchable prodrugs can be fine-tuned and a thorough investigation of the release dynamics is presented promoting this system to a level where in vivo application can be considered. Furthermore, the foundations for the implementation of the photocontrollable Diels-Alder reaction in the reversible covalent functionalization of carbon nanotubes have been laid. Despite the fact that a successful functionalization has not yet been achieved, the basic principles were investigated and have paved the way for the application of more advanced techniques to effectively modulate the physicochemical properties of sp2-carbon allotropes. Photochromie Diarylethene Diels-Alder-Reaktion Dynamisch-Kovalente Chemie photochromism diarylethenes Diels-Alder reaction dynamic covalent chemistry 540 Chemie 30 Chemie VK 6007 ddc:540
7	Fluorescent and Photochromic Fluorescent Compounds for Applications in Optical Nanoscopy / Fluoreszierende und Photochrome Fluoreszierende Verbindungen zur Anwendung in der Optischen Nanoskopie Polyakova, Svetlana 20 October 2009 (has links) No description available. 540 Chemie Mathematics and Computer Science Photochrome Diarylethene Molekulare Schalter Rhodamine GM1-Ganglioside Photochromic Diarylethenes Molecular Switches Rhodamines Ganglioside GM1 35.50 35.59 35.78 SU
8	Highly Constrained Dithienylethenes Kleinwächter, Michael 11 March 2019 (has links) Diarylethene sind molekulare Schalter, welche sich unter Einwirkung von Licht zwischen einem offenen und einem geschlossenen Isomer umwandeln. Die Effizienz dieser beiden Photoreaktionen ist von verschiedenen Parametern abhängig, welche bisher nur unzureichend verstanden sind. Ein entscheidender Faktor für die Hinreaktion ist das Verhältnis zweier Konformere, von denen jedoch nur eines photochemisch aktiv ist. In der vorliegenden Arbeit wird eine neue Klasse von Diarylethenen beschrieben, in welcher die aktive Konformation durch kovalente Verbrückungen unterschiedlicher Länge stabilisiert wird. Gleichzeitigeröffnet sich ein zusätzlicher Reaktionspfad in Form einer Doppelbindungsisomerisierung. Es stellte sich heraus, dass bei geeigneter Verbrückungslänge das zyklisierte Isomer mit ungewöhnlich hoher Effizienz gebildet wird, während die Effizienz der Ringöffnung nicht beeinflusst wird. Der Mechanismus und die Dynamik der Photoreaktion wurden anhand ausgewählter Vertreter durch Ultrakurzzeitspektroskopie untersucht. Weiterhin konnte gezeigt werden, dass der Ringschluss auch durch elektrochemische Oxidation oder Reduktion erfolgen kann. Die vorgestellten Systeme agieren bei direkter photochemischer Anregung wie herkömmliche Diarylethene nur im Ringschluss/Ringöffnungsregime. Durch Tripletsensibilisierung kann jedoch eine selektive Z→E Isomerisierung erzielt werden, was diese Diarylethenklasse zu reversiblen 3-Zustandssystemen erweitert. In Erweiterung des Projektes wurde die Struktur des Diarylethens noch stärker fixiert. Nach vielseitigen Syntheseversuchen konnten zwei Vertreter dieser Klasse erhalten und photochemisch untersucht werden, wobei ein Umsatz zu etwa 60% zyklisiertem Isomer bei der Bestrahlung mit UV-Licht gefunden wurde. Zusammengefasst stellt die kovalente Verbrückung der Diarylethenstruktur eine erfolgreiche Strategie dar, um sowohl die Effizienz der Ringschlussreaktion zu steigern als auch photochrome Verbindungen mit drei Schaltzuständen zu kreieren. / Diarylethenes are molecular switches that interconvert reversibly between an open and a closed isomer by irradiation with light. The efficiency of both photochemical reactions depends on several parameters, which, so far, are only insufficiently understood. One important factor in the cyclization reaction is the presence of two conformations of the open isomer of which only one is photochemically active. In the current work, a new class of diarylethenes is presented, in which the active conformation is covalently stabilized by alkyl chains of different lengths. As the central double bond is not fixated, double bond isomerization emerges as an additional pathway in these annulated diarylethenes. In dependence of the chosen ring size both open isomers convert with increased efficiency to the closed isomer upon irradiation. The efficiency of the cycloreversion process remains unaffected. The mechanism and dynamic of the photoreaction were investigated for selected compounds using transient absorption spectroscopy. Furthermore, electrochemical studies revealed that both the E- and the Z-isomer cyclize rapidly upon anodic oxidation or cathodic reduction. In general, the photochemical reactivity of annulated diarylethenes parallels that of normal diarylethenes and takes place exclusively in the cyclization/cycloreversion regime if irradiated directly. However, it was demonstrated that a selective Z→E double bond isomerization is possible, thus implementing a 3-state photoswitchable system. In extension of the project, the structure of diarylethenes was further stiffened. Using diverse synthetic approaches, two members of this class could be obtained. Photochemical investigation showed a conversion to the closed isomer of 60% upon irradiation with UV-light. In brief, the covalent fixation of diarylethenes represents an attractive strategy to increase the efficiency of the photochemical cyclization and extent the scope of diarylethenes to 3-state photochromic systems. Diarylethene Photochemie Organische Synthese Elektrochemie Spektroelektrochemie Kovalente Verbrückung Femtosekundenspektroskopie Diarylethenes Photochemistry Organic synthesis Electrochemistry Spectroelectrochemistry Covalent bridging Femtosecond spectroscopy 547 Organische Chemie 541 Physikalische Chemie VK 5607 VE 9587 VK 8257 ddc:547 ddc:541

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