Global ETD Search

261	Experimental studies of proton translocation reactions in biological systems : Electrogenic events in heme-copper oxidases Lepp, Håkan January 2008 (has links) Terminal heme-copper oxidases (HCuOs) are transmembrane proteins that catalyze the final step in the respiratory chain - the reduction of O2 to H2O, coupled to energy conservation by generation of an electrochemical proton gradient. The most extensively investigated of the HCuOs are the aa3-type oxidases, to which cytochrome c oxidase (CytcO) belongs, which uses energy released in the O2-reduction for proton pumping. The bacterial nitric oxide reductases (NORs) have been identified as divergent members of the HCuO-superfamily and are involved in the denitrification pathway where they catalyze the reduction of NO to NO2. Although as exergonic as O2-reduction, this reaction is completely non-electrogenic. Among the traditional HCuOs, the cbb3-type oxidases are the closest relatives to the NORs and as such provide a link between the aa3 oxidases and the NORs. The cbb3 oxidases have been shown to pump protons with nearly the same efficiency as the aa3 oxidases, despite low sequence similarity. This thesis is focused on measurements of membrane potential generating reactions during catalysis in the CytcO and the cbb3 oxidase from Rhodobacter sphaeroides, and the NOR from Paracoccus denitrificans, using a time resolved electrometric technique. The pH dependence of the membrane potential generation in CytcO showed that only one proton is taken up and that no protons are pumped, at high pH. An additional kinetic phase was also detected at high pH that presumably originates to from charge-transfer within the K-pathway. Possible reasons for uncoupling, and the extent of charge-transfer, were studied using structural variants of CytcO. The measurements established that electrons and protons are taken up from the same side of the membrane in NOR. In addition, the directionality for proton uptake in cbb3 oxidase appeared to be dependent on the choice of substrate while proton pumping was indicated to occur only during O2-reduction. heme-copper oxidase cytochrome c oxidase nitric oxide reductase cbb3-type oxidase proton pumping uncoupling charge-transfer electrogenic event flow-flash Biophysics Biofysik
262	Thiophen und Benzodithiophen basierte organische Halbleiter für aus Lösung prozessierbare Feldeffekttransistoren / Thiophene and benzodithiophene based organic semiconductors for solution processable field effect transistors Bilkay, Taybet January 2013 (has links) Diese Arbeit befasst sich mit der Synthese und Charakterisierung von organolöslichen Thiophen und Benzodithiophen basierten Materialien und ihrer Anwendung als aktive lochleitende Halbleiterschichten in Feldeffekttransistoren. Im ersten Teil der Arbeit wird durch eine gezielte Modifikation des Thiophengrundgerüstes eine neue Comonomer-Einheit für die Synthese von Thiophen basierten Copolymeren erfolgreich dargestellt. Die hydrophoben Hexylgruppen in der 3-Position des Thiophens werden teilweise durch hydrophile 3,6-Dioxaheptylgruppen ersetzt. Über die Grignard-Metathese nach McCullough werden statistische Copolymere mit unterschiedlichen molaren Anteilen vom hydrophoben Hexyl- und hydrophilem 3,6-Dioxaheptylgruppen 1:1 (P-1), 1:2 (P-2) und 2:1 (P-3) erfolgreich hergestellt. Auch die Synthese eines definierten Blockcopolymers BP-1 durch sequentielle Addition der Comonomere wird realisiert. Optische und elektrochemische Eigenschaften der neuartigen Copolymere sind vergleichbar mit P3HT. Mit allen Copolymeren wird ein charakteristisches Transistorverhalten in einem Top-Gate/Bottom-Kontakt-Aufbau erhalten. Dabei werden mit P-1 als die aktive Halbleiterschicht im Bauteil, PMMA als Dielektrikum und Silber als Gate-Elektrode Mobilitäten von bis zu 10-2 cm2/Vs erzielt. Als Folge der optimierten Grenzfläche zwischen Dielektrikum und Halbleiter wird eine Verbesserung der Luftstabilität der Transistoren über mehrere Monate festgestellt. Im zweiten Teil der Arbeit werden Benzodithiophen basierte organische Materialien hergestellt. Für die Synthese der neuartigen Benzodithiophen-Derivate wird die Schlüsselverbindung TIPS-BDT in guter Ausbeute dargestellt. Die Difunktionalisierung von TIPS-BDT in den 2,6-Positionen über eine elektrophile Substitution liefert die gewünschten Dibrom- und Distannylmonomere. Zunächst werden über die Stille-Reaktion alternierende Copolymere mit alkylierten Fluoren- und Chinoxalin-Einheiten realisiert. Alle Copolymere zeichnen sich durch eine gute Löslichkeit in gängigen organischen Lösungsmitteln, hohe thermische Stabilität und durch gute Filmbildungseigenschaften aus. Des Weiteren sind alle Copolymere mit HOMO Lagen höher als -6.3 eV, verglichen mit den Thiophen basierten Copolymeren (P-1 bis P-3), sehr oxidationsstabil. Diese Copolymere zeigen amorphes Verhalten in den Halbleiterschichten in OFETs auf und es werden Mobilitäten bis zu 10-4 cm2/Vs erreicht. Eine Abhängigkeit der Bauteil-Leistung von dem Zinngehalt-Rest im Polymer wird nachgewiesen. Ein Zinngehalt von über 0.6 % kann enormen Einfluss auf die Mobilität ausüben, da die funktionellen SnMe3-Gruppen als Fallenzustände wirken können. Alternativ wird das alternierende TIPS-BDT/Fluoren-Copolymer P-5-Stille nach der Suzuki-Methode polymerisiert. Mit P-5-Suzuki als die aktive organische Halbleiterschicht im OFET wird die höchste Mobilität von 10-2 cm2/Vs erzielt. Diese Mobilität ist somit um zwei Größenordnungen höher als bei P-5-Stille, da die Fallenzustände in diesem Fall minimiert werden und folglich der Ladungstransport verbessert wird. Sowohl das Homopolymer P-12 als auch das Copolymer mit dem aromatischen Akzeptor Benzothiadiazol P-9 führen zu schwerlöslichen Polymeren. Aus diesem Grund werden einerseits Terpolymere aus TIPS-BDT/Fluoren/BTD-Einheiten P-10 und P-11 aufgebaut und andererseits wird versucht die TIPS-BDT-Einheit in die Seitenkette des Styrols einzubringen. Mit der Einführung von BTD in die Hauptpolymerkette werden insbesondere die Absorptions- und die elektrochemischen Eigenschaften beeinflusst. Im Vergleich zu dem TIPS-BDT/Fluoren-Copolymer reicht die Absorption bis in den sichtbaren Bereich und die LUMO Lage wird zu niederen Werten verschoben. Eine Verbesserung der Leistung in den Bauteilen wird jedoch nicht festgestellt. Die erfolgreiche erstmalige Synthese von TIPS-BDT als Seitenkettenpolymer an Styrol P-13 führt zu einem löslichen und amorphen Polymer mit vergleichbaren Mobilitäten von Styrol basierten Polymeren (µ = 10-5 cm2/Vs) im OFET. Ein weiteres Ziel dieser Arbeit ist die Synthese von niedermolekularen organolöslichen Benzodithiophen-Derivaten. Über Suzuki- und Stille-Reaktionen ist es erstmals möglich, verschiedenartige Aromaten über eine σ-Bindung an TIPS-BDT in den 2,6-Positionen zu knüpfen. Die UV/VIS-Untersuchungen zeigen, dass die Absorption durch die Verlängerung der π-Konjugationslänge zu höheren Wellenlängen verschoben wird. Darüber hinaus ist es möglich, thermisch vernetzbare Gruppen wie Allyloxy in das Molekülgerüst einzubauen. Das Einführen von F-Atomen in das Molekülgerüst resultiert in einer verstärkten Packungsordnung im Fluorbenzen funktionalisiertem TIPS-BDT (SM-4) im Festkörper mit sehr guten elektronischen Eigenschaften im OFET, wobei Mobilitäten bis zu 0.09 cm2/Vs erreicht werden. / This work describes the synthesis and characterization of organo-soluble thiophene and benzodithiophene based materials and their application as hole-transporting active semiconductor layers in field effect transistors. The first part of this work introduces the targeted modification of the thiophene base unit, obtaining new comonomers for the corresponding copolymers. The hydrophobic hexyl groups in the 3-position of thiophene are partially replaced by hydrophilic 3,6-Dioxaheptyl groups. Using the Grignard metathesis developed by McCullough, statistical copolymers with different molar ratios of hydrophobic and hydrophilic side groups 1:1 (P-1), 1:2 (P-2) and 2:1 (P-3) are synthesized. Furthermore a defined blockcopolymer is synthesized by a sequential comonomer addition. Optical and electrochemical properties of the novel copolymers are comparable to the homopolymer P3HT. All copolymers show clearly transistor characteristics in a top-gate/bottom-contact configuration. Devices with P-1 as active semiconductor layer, PMMA as dielectric and silver as the gate electrode show mobilities up to 10-2 cm2/Vs. As a result of the optimized semiconductor and dielectric interface an improvement of the air stability of the transistors is observed for several months. The second part describes the synthesis of benzodithiophene based organic materials. For the synthesis of the novel benzodithiophene-derivatives the key intermediate TIPS-BDT is obtained in high yields. A difunctionalization of TIPS-BDT in 2,6-position is observed by electrophilic substitution reactions and provided the desired dibromo- and distannyl-monomers. Via Stille-reaction alternated copolymers with alkylated fluorene and quinoxaline groups are synthesized. All copolymers are soluble in common organic solvents, show high thermal stability and good film forming properties. Furthermore all copolymers have HOMO values above -6.3 eV and are more oxidation stable compared to the thiophene based copolymers (P-1 up to P-3). These copolymers show an amorphous behavior as semiconductor layer in OFETs and mobilities up to 10-4 cm2/Vs are observed. A correlation between the device performance and the tin amount in the polymer could be demonstrated. Hence the functional SnMe3 groups can act as traps, a tin amount higher than 0.6 % can negatively influence the mobility. Alternatively the alternated TIPS-BDT/Fluoren-copolymer P-5-Stille is polymerized by the Suzuki-Method. The highest mobility of 10-2 cm2/Vs is obtained with P-5-Suzuki as active semiconductor layer in OFET. In comparison to P-5-Stille this mobility is two orders of magnitude higher, because in P-5-Suzuki traps are minimized and the charge transfer is improved. The synthesis of homopolymer P-12 as well as the copolymer with aromatic benzothiadiazole P-9 resulted in insoluble polymers. For this reason terpolymers containing TIPS-BDT/Fluoren/BTD units are designed. Additionally an attempt has been made to introduce the TIPS-BDT unit in the side chain of styrene. The introduction of BTD in the conjugated main chain influences especially the absorption and electrochemical properties. Compared to TIPS-BDT/Fluoren-copolymer the absorption of the terpolymer is shifted to the visible region and the LUMO values decreased. An improvement in the device performance is not observed. A side chain polystyrene containing TIPS-BDT P-13 is synthesized successfully. The amorphous and soluble P-13 showed comparable mobilities (µ = 10-5 cm2/Vs) as known styrene based polymers. A further aim of this work is the synthesis of organo-soluble benzodithiophene based small molecules. Using Suzuki- and Stille-reactions different aromatic cores as endcappers are connected by σ-bonds at the 2,6-position of TIPS-BDT. UV/VIS-measurements show a red-shift of the absorption maxima with extension of the π-conjugated system. Furthermore it is possible to introduce thermal cross linkable allyloxy-groups. The F-atoms in the molecule lead to stronger intermolecular interactions in the solid state, which improves the electronic properties and lead to high mobilities up to 0.09 cm2/Vs for TIPS-BDT (SM-4). Thiophen und Benzodithiophen Copolymere konjugierte kleine Moleküle organische Halbleiter OFET Ladungstransport conjugated small molecules organic semiconductors OFET charge transfer Chemistry and allied sciences
263	Molecular Design for Nonlinear Optical Materials and Molecular Interferometers Using Quantum Chemical Computations Xiao, Dequan January 2009 (has links) <p>Quantum chemical computations provide convenient and effective ways for molecular design using computers. In this dissertation, the molecular designs of optimal nonlinear optical (NLO) materials were investigated through three aspects. First, an inverse molecular design method was developed using a linear combination of atomic potential approach based on a Hückel-like tight-binding framework, and the optimizations of NLO properties were shown to be both efficient and effective. Second, for molecules with large first-hyperpolarizabilities, a new donor-carbon-nanotube paradigm was proposed and analyzed. Third, frequency-dependent first-hyperpolarizabilities were predicted and interpreted based on experimental linear absorption spectra and Thomas-Kuhn sum rules. Finally, molecular interferometers were designed to control charge-transfer using vibrational excitation. In particular, an ab initio vibronic pathway analysis was developed to describe inelastic electron tunneling, and the mechanism of vibronic pathway interferences was explored.</p> / Dissertation Chemistry, Physical Physics, Optics Engineering, Materials Science Controlled charge transfer Inverse molecular design Molecular electronic devices Nanostructured NLO Nonlinear optical materials Vibronic pathways
264	Investigations of Strongly Charge Transfer Molecules Using Nonlinear Optical Scattering and Absorption Tai, Yung-hui 19 January 2005 (has links) This thesis provides an extensive study of the first molecular hyperpolarizability b of charge-transfer chromophores using hyper-Rayleigh scattering (HRS). The charge-transfer chromophores used in present work involve the tricyanohydrofuran¡]TCF¡^group as an electron acceptor, and/or thiophene in the pi-electron bridge. TCF is a very strong electron acceptor and thiophene greatly lowers the resonance energy. Their presence significantly increases the beta value of the chromophore, therefore enhancing potentials in applications. In hyper-Rayleigh scattering experiments, the laser radiation with tunable wavelengths is used as an excitation source for measuring the frequency dependence of beta. The experiment shows beta exhibiting a significant dispersion in the two-photon resonance region. Using the linear absorption spectrum in coordination with theory, we show that it is possible to use Kramers-Kronig (K-K) transform to reproduce the experimental beta value in the two-photon resonance region. The K-K approach provides an extension to the conventional Oudar-Chemla equation, which is invalid in the spectral region in which two-photon resonance occurs. Using the new approach, it is shown that reliable values of intrinsic hyperpolarizabilities beta_zero of charge-transfer chromophores can be extracted. The coordination of beta_zero with molecular structure provides one with an insight for the origin of the enhancement of the first molecular hyperpolarizability of charge-transfer chromophores. This thesis examines the variation of beta_zero with molecular structure. The same technique is also applied to a dendrimer that has charge-transfer nonlinear optical chromophores incorporated in the dendritic structure. The measured frequency dependent hyperpolarizability of the dendrimer is compared with that calculated from the linear absorption spectrum by the KK transform technique. The intrinsic hyperpolarizability beta_zero of the dendrimer obtained is compared with that of the single chromophore having a structure similar to that incorporated in the dendrimer. The comparison shows that the 3D dendritic structure is effective in reducing the interaction between chromophores by providing sufficient space between them, hence avoiding the possibility of aggregation formation due to attractive interactions between chromophores. The topic of two-photon fluorescence (TPF), which is related to HRS, is also investigated. The intensity of TPF is generally proportional to the square of the incident excitation intensity. Careful measurements of the TPF intensity of a nonlinear optical chromophore in conjunction with required auxiliary parameters have been used as a technique for determining the two-photon absorption cross-section. The TPF intensity measurement carried out in this thesis uses a variety of intensities. At low intensity excitation, the TPF intensity follows the usual quadratic intensity law (QIL), whereas deviations from the QIL are observed at higher incident intensities. The observation of similar lineshape associated with one- and two-photon fluorescence spectra suggests a 3-level model for the description of TPF excited by the incident intensity at various strengths. It is shown that by fitting the observed TPF intensity to an equation developed from the three-level model, it is possible to deduce the two-photon absorption cross section of the nonlinear optical chromophore in solution. The new technique developed using the three-level model is tested on a Rhodamine B/Chloroform solution. The two-photon absorption cross-section obtained by using the new technique is found in agreement with that reported in the literature. Having demonstrated the suitability of the new technique, it is used to determine the two-photon absorption cross-section of a novel nonlinear optical chromophore. The two-photon absorption cross-section using the new technique is then compared with that obtained by the nonlinear transmittance method. The two results are in good agreement, indicating the applicability of the new technique. The new technique is more convenient than the conventional low excitation TPF method as it does not require various auxiliary parameters, some of them are difficult to obtain. The second harmonic generation (SHG) of a chromophore/polymer film which is optically poled by using a coherent superposition of a fundamental and its second harmonic beams. The growth rate of the SHG intensity is found to be proportional to the fourth power of the incident intensity of the fundamental beam, and the plateau intensity SHG is proportional to the square of the incident intensity. These observations are not in agreement with the published theory. While the reason for disagreement is yet to be clarified, the information obtained is useful for the development of nonlinear optical devices. Second harmonic generation First molecule hyperpolarizability Charge-transfer chromophore Two-photon absorption cross section Nonlinear optics Optical poling Two-photon fluorescence Hyper-Rayleigh scattering
265	Theoretical characterization of the charge-transport and electroluminescence properties of pi-conjugated organic materials Salman, Seyhan 22 June 2009 (has links) The structural, electronic, and optical properties of a series of organic pi-conjugated polymer, oligomer, or molecular materials of interest for applications in organic electronics are described. For this purpose, quantum-chemical techniques ranging from Density Functional Theory to Hartree-Fock ab initio and semiempirical methods are used to evaluate the charge-transport, charge-transfer, and electroluminescence properties of pi-conjugated organic materials. First, the effect of electronic polarization on the charge-transport parameters of organic semiconductors is discussed. A generalized methodology based on a basis set orthogonalization procedure is developed to determine reliable charge-transport characteristics. The charge-transport parameters of a number of organic semiconductors such as oligoacenes and derivatives are studied with this methodology. Then, triplet emitters, in particular iridium complexes, that achieve high efficiency electroluminescence in organic light-emitting diodes are discussed. The effects of ligand substitution and orientation on the luminescent properties of iridium compounds are investigated in order to develop structure-properties relationships. The emission properties of these complexes are found to be governed by an interplay between metal-to-ligand charge transfer excitations and ligand-centered and/or interligand excitations. The extent of mixing of these various excitations turns out to be highly dependent on the nature of the substituents. Design strategies to shift the emission color towards deep blue are proposed. Finally, several classes of materials acting as hosts for phosphorescent emitters are studied. It is shown that restricting the conjugation length leads to high energy gap host materials suitable for blue phosphorescent emitters. Metallocenes Fused oligomers Triscarbazoles Modelling Phosphorescence OLED Phosphine oxides Excited states Oxadiazoles Iridium complexes Solvent effects Quantum chemistry Organic semiconductors Charge transfer Organometallic compounds
266	Electroabsorption spectroscopy of quasi-one-dimensional organic molecular crystals Guo, Wenge 13 March 2004 (has links) (PDF) We have presented a thorough experimental investigation of electroabsorption spectroscopy on quasi-one-dimensional organic molecular crystals such as PTCDA and MePTCDI vapor deposited thin films to clarify the involvement of the charge-transfer exciton in the lowest excited state. By a self-built experimental setup, two kinds of electroabsorption measurements, called &quot;perpendicular&quot; and &quot;parallel&quot; measurements, were conducted at room temperature in ambient air. The crystalline texture of PTCDA and MePTCDI thin film samples are characterized by X-ray diffraction measurements. Current-voltage, capacitance-frequency and capacitance-voltage measurements are performed to clarify the electric field distribution inside organic layers. The results from electrical measurements show that only under certain conditions (electroabsorption measurements with proDC bias), the perpendicular and parallel electroabsorption meaurements can be directly compared. The electroabsorption spectra of MePTCDI and PTCDA thin films can be interpreted by neither pure Frenkel exciton nor pure charge-transfer exciton model. Essential features of electroabsorption spectra of MePTCDI and PTCDA thin films can be understood by the the mixture of Frenkel and charge-transfer exciton model. However, there is still a discrepancy in the directional properties of electroabsorption signals between experimental results and modle calculations. This small discrepancy suggests that a full interpretation of electroabsorption spectra of quasi-one-dimensional organic molecular crystals needs further experimental and theoretical investigations. Elekroabsorption Spektroskopie Charge-transfer exciton Frekel exciton MePTCDI PTCDA electric-field-induced absorption electroabsorption organic molecular crystals ddc:530 rvk:UP 7500 Dünne Schicht Elektroabsorption Exziton Perylendianhydrid Spektroskopie
267	Reaktivität von Chlorosilanen gegenüber Aminen Knopf, Claudia 13 July 2009 (has links) (PDF) Gegenstand dieser Arbeit war die Untersuchung verschiedener Systeme Chlorosilan / Amin bezüglich deren elektronischer Struktur, Molekülstruktur und Reaktivität. Einen Schwerpunkt bildete dabei die Untersuchung der LEWIS-BASE-katalysierten Disproportionierung unterschiedlich chlorierter Disilane mit elektronenreichen Alkenen, wie Tetrakis-(dimethylamino)-ethylen (TDAE) oder N,N,N’,N’-Tetramethyl-1,4-phenylendiamin (TPDA). Die Alkene sollten auf mögliche Elektronenübertragungsreaktionen, aber auch Chelatbildung mit den eingesetzten Disilanen bzw. intermediär gebildeten Silylenen getestet werden. Ein weiterer Schwerpunkt lag bei der Synthese und Charakterisierung neuer hetero- und homocyclischer Oligosilane. Die erhaltenen Cyclooligosilane wurden auf ihre Donorwirkung gegenüber elektronendefizienten π-Alkenen und eine damit verbundene Charge-Transfer-Komplexbildung untersucht. In die Auswertung wurden auch ab-initio-Berechnungen einbezogen, die mit den experimentellen Ergebnissen (u.a. NMR, IR, Röntgeneinkristallstrukturanalyse) vergleichend diskutiert wurden. Silane Chlorsilane Oligosilane elektronenreiche Alkene Lewis-Base Disproportionierung Silylene Elektronentransfer Amine cyclische Verbindungen Heterocyclen Silicium Germanium Charge Transfer NMR IR EPR UV/VIS Kristallstrukturanalyse ddc:540 rvk:VK 5507
268	Synthese und Charakterisierung neuartiger Donor-Akzeptor substituierter Oligosilane Beyer, Christian 29 July 2009 (has links) (PDF) Von generellem Interesse für potentielle Anwendungsmöglichkeiten sind Materialien mit speziellen elektrischen bzw. nichtlinearen optischen Eigenschaften. Im Rahmen dieser Arbeit wurden neue dipolare Verbindungen synthetisiert und charakterisiert, welche eine zentrale Organosilanspacereinheit (-SiMex-,-(SiMe2)6-), ein terminales Metallkomplexfragment (potentieller Donor, FcN-) sowie eine terminale organische Akzeptoreinheit (-PhF, -PhBr, -PhCHO) enthalten und gleichzeitig eine große Variationsbreite gewünschter Eigenschaften aufweisen. Aus Photo-EMK-Messungen, UV/VIS-, NMR-Spektroskopie, Mößbauer- und cyclovoltammetrischen Untersuchungen kann auf eine im Festkörper auftretende temperaturabhängig variierende intermolekulare Kopplung zwischen dem Donor und dem organischen Akzeptor geschlossen werden. Photo-EMK- und Einkristallröntgenstrukturanalysen der Salze (Hydrochloride, Pikrate) offenbaren starke intermolekulare Wechselwirkungen (C-H···π, D-C-H···A) mit entscheidendem Einfluß auf Festkörpereigenschaften (supramolekulare MO's). Ferrocen Silane polare Polysilane Charge-transfer-Komplexe Mößbauer-Spektroskopie Photospannung Cyclovoltammetrie Kristallstrukturanalyse Donor-Akzeptor-Systeme Nichtkovalente Wechselwirkungen Wasserstoffbrücken NLO-Chromophor ddc:540 rvk:VH 5507
269	Multi-Photon Interactions with a Time Structure Baev, Alexander January 2003 (has links) <p>The present thesis concerns aspects of the interaction ofmatter in gas, liquid and solid phases, with electromagneticradiation, ranging from the optical to the X-ray region. Overthe last decade the availability of ultrashort strong laserpulses as well as of high power synchrotron sources of tunableX-ray radiation has stimulated a rapid development of newexperimental techniques which makes it possible to analysedifferent physical, chemical and biological processes inunprecedented detail. All of this urges a concomitantdevelopment of adequate theoretical language and methodscombined with simulation techniques.</p><p>The first part of the thesis addresses nonlinear propagationof strong optical pulses. This study is motivated by thebreakthrough in synthesis of novel organic materials possessingprespecified nonlinear optical properties and which has led toa multitude of potential applications such as, for example, 3Dimaging and data storage, optical limiting and photodynamiccancer therapy. In order to clarify the underlying physics, astrict solution has been derived of the density matrixequations of a material aiming at an explicit treatment of itsnonlinear polarization without addressing a conventional Taylorexpansion over field amplitudes. Such a formalism is developedfor many-level molecules, allowing to solve the coupledMaxwell's and density matrix equations for the propagation of afew interacting laser pulses through a nonlinear molecularmedium. The theory presented is capable to account formulti-photon processes of an arbitrary order and for differentsaturation effects. The theory is applied to simulations oftwo- and three-photon absorption as well as to upconvertedstimulated emission of organic molecules in solvents.</p><p>The second part of the thesis is devoted to resonant X-rayRaman scattering from free molecules, solutions and polymerfilms. The temporal analysis of the spectral profiles isperformed using the technique of scattering duration whichallows to select physical processes with different time scales.The slowing-down/speeding-up of the scattering by frequencydetuning provides insight in the formation of the differentparts of the scattering profile like atomic and molecularbands, resonant and vertical scattering channels, anomalousenhancement of the Stokes doubling effect. The lifetimevibrational interference (LVI), playing a crucial role inresonant scattering, is found to strongly influence thedispersion of the Auger resonances of polymers in agreementwith experiment. An almost complete quenching of the scatteringcross section by LVI is observed for the N<sub>2</sub>molecule. It is found that the interferenceelimination of the scattering amplitude gives valuableinformation on molecular geometry. The electron Doppler effectis minutely studied making use of a wave packet technique. Thesimulations show an "interference burning" of a narrow hole onthe top of the Doppler broadened profile of the Auger spectraof molecular oxygen. For the SF<sub>6</sub>molecule the Auger Doppler effect is found to besensitive to the detuning due to the scattering anisotropy. Inall of these studies the temporal language was foundconstructive and enormously helpful for understanding theunderlying physical processes. Most theoretical predictionsmade have been verified by experiments.</p> nonlinear optics two-photon absorption mirrorless lasing charge-transfer chromophores solutions resonant photoemission life-time vibrational interference scattering duration time electron Doppler effect polymers
270	Nonlinear optical characterization of organic polymers and small molecules and their application towards optical power limiting Marshall, Ariel S. 27 August 2014 (has links) This thesis is concerned with the photophysical and nonlinear optical responses, and applications of a set of conjugated polymers and small molecules in the visible and near-IR spectral regions. Poly(phenylene ethynylene) PPE polymers were substituted with conjugated side-arms in a cruciform fashion to determine the impacts of electronic coupling on the one-photon (1PA), two-photon (2PA), and excited state absorption (ESA) properties of the co-polymer system. The cruciform-like PPEs showed significant changes in their nonlinear and phophysical behavior relative to their linear models, including shifts and splittings of the 1PA bands due to moderate mixing of the lowest singlet excited states, an increase in the 2PA cross section (δ) values, and an increase in the yield of triplet excited-state species. The cruciform-like PPE polymers exhibited effective optical pulse suppression of femtosecond and nanosecond laser pulses over a broad spectral range of ~200 nm in the visible and near-IR. The suppression capability of the cruciform-like PPEs exceeded the best reported value for alkyl-substituted PPE polymers. The spectroscopic effects due to conjugation length, structural configuration, and intramolecular charge transfer (ICT) are discussed for a family of bent donor-acceptor-donor (D-A-D) -type conjugated oligomers, which incorporate electron-rich triarylamine donors and electron-deficient triarylborane acceptor units into its conjugated structure. These organoborane oligomers are highly fluorescent and exhibit strong 2PA in the visible region with δ values as large as 1410 GM, as well as overlapping ESA bands attributed to singlet-singlet and triplet-triplet absorption. Saturation of the molar absorptivity, ε, and δ was observed at less than two repeat monomer units due to conformational disorder in the oligomer with increasing length. Positive solvatochromism of fluorescence with solvent shifts as large as ~70 nm was observed as a result of ICT from the arylamine donors to boryl-centered acceptor sites. The excited-state dynamics also show sensitivity to the solvent environment. Experimental findings suggest that these organoborane oligomers may have potential use as nonlinear material for optical power limiting (OPL) and two-photon sensing applications. The spectral properties of two bis-donor chromophores, (bis(diarylamino)biphenyl (TPD) and distyrylthiophene (DST), were investigated with and without the presence of AgNPs in order to better understand the local-field enhancement and subsequent effects on the photophysics and nonlinear behavior of 2PA dyes. While little changes were observed in the excited-state dynamics, measurements of nanoparticle aggregate-dye composite solutions with TPD revealed a 1.6-enhancement in the two-photon excited fluorescence signal. OPL measurements of nanosecond laser pulses at 532 nm revealed a reduction in threshold energy by a factor of 2 in solutions containing TPD and AgNP aggregates, relative to solutions of TPD alone. DST shows exceptional solubility (>1 M) in several organic solvents and exhibits a 2PA spectrum that overlaps well with its singlet-singlet and triplet-triplet ESA bands. Consequently, DST exhibits effective optical limiting of nanosecond laser pulses through two-photon induced excited-state absorption over a broad spectral range of approximately 200 nm in the red and near-IR. Poly(phenylene ethynylene) Organoboranes Photo-induced charge transfer Optical power limiting Metal nanoparticles Conjugated polymers Conjugated small molecules Nonlinear optical material Photophysics Ultrafast characterization

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