Global ETD Search

11	Comparing the biochemical compositions of fruits from the Sambucus species and the color expression of their anthocyanin extracts as modulated by UV irradiation Zhou, Yucheng January 2021 (has links) No description available. Food Science Anthocyanins natural colorant Sambucus photoisomerization phytochemicals
12	The Photophysical Behavior of Aryl-diphosphenes and Aryl-phosphaalkenes: A Theoretical Study Payton, John L., PhD 17 May 2010 (has links) No description available. Chemistry Physics
13	Propriétés photophysiques des systèmes supramoléculaires bi- et multichromophoriques / Photophysical properties of bi- and multichromophoric supramolecule-based systems Denisov, Sergey 13 November 2014 (has links) En utilisant les spectroscopies d'absorption UV-vis et d'émission stationnaire et résolue dans le temps (femto- et sub–nanoseconde, caméra à balayage de fente), nous avons étudié, au cours de cette thèse, les processus photophysiques au sein de différentes molécules et supramolécules. Les propriétés photophysiques de nouveaux complexes de Ru(II) polypyridine et de Ir(III) cyclométallé présentant un transfert d'énergie électronique réversible entre le noyau métallique et les chromophores organiques auxiliaires énergétiquement appariés (anthracène et pyrène) ont été analysées en détail. Les caractéristiques de la séparation de charge entre un donneur d'électron (OPV) et un accepteur (PB) à travers un pont d'oligoquinoline au sein de foldamères de longueurs croissantes ont été précisées dans une échelle de temps inférieure à la nanoseconde. De nouvelles sondes luminescentes à base de lanthanides ont été réalisées pour la détection en temps réel de l’ion Cu(I), leurs propriétés optiques étant modulées par effet «d’antenne» par le biais d'interactions cations-nuagePi. L'étude de sondes fluorescentes off-on en proche IR formées de colorantsBF2-AzaBODIPY fixés de manière covalente sur des nanoparticules (100 nm) polymériques a été réalisée, et étendue à de nouvelles sondes sensibles au pH émettant dans le proche IR. Des études de photoisomérisation ont été effectuées sur deux systèmes azobenzéniques capables de libérer/capturer des ions Ca(II) (azobenzène-éther«lasso», azobenzène-BAPTA) – l'impact de l'eau sur la photoisomérisation cis-trans d’hydroxychalcones a été mis en évidence dans CH3CN et H2O/CH3OH (v/v=1/1). / In the present work photophysical processes of different molecular and supramolecular systems were studied using steady-state and time-resolved femto- and sub-nanosecond (streak-camera detection) UV-vis absorption and emission spectroscopies. Detailed photophysical studies of novel Ru(II) polypyridine and cyclometalatedIr(III) complexes showing reversible electronic energy transfer between metallic core and auxiliary organic energetically-matched chromophores anthracene and pyrene, respectively were performed. Time-resolved characterization of charge separation between electron donor (OPV) and acceptor (PB) in the sub-nanosecond timescale through an oligoquinoline bridge in foldamers of increasing oligomeric length was carried out. Novel lanthanide-based luminescent probes were investigated for time-gated detection of Cu(I) ion, being modulated by an antenna effect through cation-pi interactions.The study on NIR fluorescent off-on probes, based on BF2-aza-BODIPY dyes, covalently attached to the surface of polystyrene 100 nm nanoparticles, along with related novel NIR pH-responsive fluorescence probes were conducted. Photoisomerization studies focused on azobenzene-based (azobenzene-lariat ether, azobenzene-BAPTA)Ca(II)-ion release/capture systems, while the impact of water on the cis−trans photoisomerizationof hydroxychalcones was studied in CH3CN and H2O/CH3OH (v/v=1/1). Transfert d'électron photo-induit Transfert d'énergie électronique Photoisomerization Absorption transitoire Émission résolue dans le temps Photoinduced electron transfer Electronic energy transfer Photoisomerization Transient absorption Time-resolved emission
14	L'orientation et la propriété de mémoire de forme des polymères cristallins liquides à chaînes latérales covalents et supramoléculaires Fu, Shangyi January 2016 (has links) In many studies of the side-chain liquid crystalline polymers (SCLCPs) bearing azobenzene mesogens as pendant groups, obtaining the orientation of azobenzene mesogens at a macroscopic scale as well as its control is important, because it impacts many properties related to the cooperative motion characteristic of liquid crystals and the trans-cis photoisomerization of the azobenzene molecules. Various means can be used to align the mesogens in the polymers, including rubbed surface, mechanical stretching or shearing, and electric or magnetic field. In the case of azobenzene-containing SCLCPs, another method consists in using linearly polarized light (LPL) to induce orientation of azobenzene mesogens perpendicular to the polarization direction of the excitation light, and such photoinduced orientation has been the subject of numerous studies. In the first study realized in this thesis (Chapter 1), we carried out the first systematic investigation on the interplay of the mechanically and optically induced orientation of azobenzene mesogens as well as the effect of thermal annealing in a SCLCP and a diblock copolymer comprising two SCLCPs bearing azobenzene and biphenyl mesogens, respectively. Using a supporting-film approach previously developed by our group, a given polymer film can be first stretched in either the nematic or smectic phase to yield orientation of azobenzene mesogens either parallel or perpendicular to the strain direction, then exposed to unpolarized UV light to erase the mechanically induced orientation upon the trans–cis isomerization, followed by linearly polarized visible light for photoinduced reorientation as a result of the cis–trans backisomerization, and finally heated to different LC phases for thermal annealing. Using infrared dichroism to monitor the change in orientation degree, the results of this study have unveiled complex and different orientational behavior and coupling effects for the homopolymer of poly{6-[4-(4-methoxyphenylazo)phenoxy]hexyl methacrylate} (PAzMA) and the diblock copolymer of PAzMA-block- poly{6-[4-(4-cyanophenyl) phenoxy]hexyl methacrylate} (PAzMA-PBiPh). Most notably for the homopolymer, the stretching-induced orientation exerts no memory effect on the photoinduced reorientation, the direction of which is determined by the polarization of the visible light regardless of the mechanically induced orientation direction in the stretched film. Moreover, subsequent thermal annealing in the nematic phase leads to parallel orientation independently of the initial mechanically or photoinduced orientation direction. By contrast, the diblock copolymer displays a strong orientation memory effect. Regardless of the condition used, either for photoinduced reorientation or thermal annealing in the liquid crystalline phase, only the initial stretching-induced perpendicular orientation of azobenzene mesogens can be recovered. The reported findings provide new insight into the different orientation mechanisms, and help understand the important issue of orientation induction and control in azobenzene-containing SCLCPs. The second study presented in this thesis (Chapter 2) deals with supramolecular side-chain liquid crystalline polymers (S-SCLCPs), in which side-group mesogens are linked to the chain backbone through non-covalent interactions such as hydrogen bonding. Little is known about the mechanically induced orientation of mesogens in S-SCLCPs. In contrast to covalent SCLCPs, free-standing, solution-cast thin films of a S-SCLCP, built up with 4-(4’-heptylphenyl) azophenol (7PAP) H-bonded to poly(4-vinyl pyridine) (P4VP), display excellent stretchability. Taking advantage of this finding, we investigated the stretching-induced orientation and the viscoelastic behavior of this S-SCLCP, and the results revealed major differences between supramolecular and covalent SCLCPs. For covalent SCLCPs, the strong coupling between chain backbone and side-group mesogens means that the two constituents can mutually influence each other; the lack of chain entanglements is a manifestation of this coupling effect, which accounts for the difficulty in obtaining freestanding and mechanically stretchable films. Upon elongation of a covalent SCLCP film cast on a supporting film, the mechanical force acts on the coupled polymer backbone and mesogenic side groups, and the latter orients cooperatively and efficiently (high orientation degree), which, in turn, imposes an anisotropic conformation of the chain backbone (low orientation degree). In the case of the S-SCLCP of P4VP-7PAP, the coupling between the side-group mesogens and the chain backbone is much weakened owing to the dynamic dissociation/association of the H-bonds linking the two constituents. The consequence of this decoupling is readily observable from the viscoelastic behavior. The average molecular weight between entanglements is basically unchanged in both the smectic and isotropic phase, and is similar to non-liquid crystalline samples. As a result, the S-SCLCP can easily form freestanding and stretchable films. Furthermore, the stretching induced orientation behavior of P4VP-7PAP is totally different. Stretching in the smectic phase results in a very low degree of orientation of the side-group mesogens even at a large strain (500%), while the orientation of the main chain backbone develops steadily with increasing the strain, much the same way as amorphous polymers. The results imply that upon stretching, the mechanical force is mostly coupled to the polymer backbone and leads to its orientation, while the main chain orientation exerts little effect on orienting the H-bonded mesogenic side groups. This surprising finding is explained by the likelihood that during stretching in the smectic phase (at relatively higher temperatures) the dynamic dissociation of the H-bonds allow the side-group mesogens to be decoupled from the chain backbone and relax quickly. In the third project (Chapter 3), we investigated the shape memory properties of a S-SCLCP prepared by tethering two azobenzene mesogens, namely, 7PAP and 4-(4'-ethoxyphenyl) azophenol (2OPAP), to P4VP through H-bonding. The results revealed that, despite the dynamic nature of the linking H-bonds, the supramolecular SCLCP behaves similarly to covalent SCLCP by exhibiting a two-stage thermally triggered shape recovery process governed by both the glass transition and the LC-isotropic phase transition. The ability for the supramolecular SCLCP to store part of the strain energy above T[subscript g] in the LC phase enables the triple-shape memory property. Moreover, thanks to the azobenzene mesogens used, which can undergo trans-cis photoisomerization, exposure the supramolecular SCLCP to UV light can also trigger the shape recovery process, thus enabling the remote activation and the spatiotemporal control of the shape memory. By measuring the generated contractile force and its removal upon turning on and off the UV light, respectively, on an elongated film under constant strain, it seems that the optically triggered shape recovery stems from a combination of a photothermal effect and an effect of photoplasticization or of an order-disorder phase transition resulting from the trans-cis photoisomerization of azobenzene mesogens. Side-chain liquid crystalline polymers Supramolecular polymers Shape memory polymers Azobenzene Orientation of mesogens Photoisomerization
15	Estudo da influência do volume livre sobre os mecanismos de foto-isomerização em azo-polímeros / The study of the free volume influence on the mechanisms of photoisomerization on azopolymers. Dall'Agnol, Fernando Fuzinatto 01 April 2003 (has links) Polímeros com grupos azobenzênicos exibindo fotoisomerização reversível trans-cis-trans tem sido usado para armazenamento óptico, chaves ópticas e produção de grades de relevo. A fotoisomerização produzida por luz linearmente polarizada cria uma orientação molecular perpendicular a polarização da luz (hole-burning angular) que induz a birrefringência na amostra. Neste trabalho, medimos a birrefringência foto induzida em filmes de poliestireno dopado com corante vermelho disperso 1 (DR1) em função da temperatura. A amplitude da birrefringência aumenta com a temperatura entre 20 e 180 K, atinge um máximo e diminui a zero próximo da temperatura de transição vítrea do polímero, a qual é da ordem de 373 K. A amplitude da birrefringência é proporcional a concentração de DR1 e também depende da história térmica da amostra. Propõe-se um modelo teórico que leva em conta a mudança de volume livre do polímero com a temperatura, representando um passo além dos modelos conhecidos. Assumimos que as moléculas de DR1 ocupam cavidades do polímero e a função distribuição Gama é usada para descrever a distribuição dos volumes das cavidades, enquanto a função Gaussiana descreve as flutuações térmicas de volume em torno de seu valor médio. A isomerização das moléculas de DR1 só podem ocorrer em cavidades com volume maior que um valor crítico. A comparação entre o modelo e os dados experimentais mostra uma razoável concordância. O modelo prevê corretamente a dependência da birrefringência com o tempo, com a temperatura e com a história térmica da amostra, já que o volume livre do polímero depende dessa história. / Polymers with azobenzene groups exhibiting reversible trans-cis-trans photoisomerization characteristics have been used for optical storage, optical switching and production of surface relief gratings. The photoisomerization produced by a linearly polarized light leads to a molecular orientation perpendicular to the light polarization (angular hole burning), which induces a birefringence on the sample. In this work we report on the photoisomerization of films of polystyrene (PS) doped with disperse red 1 (DR1), performed at various temperatures. The birefringence amplitude rises with temperature from 10 to 270 K, goes through a maximum and decays to zero near the polystyrene transition temperature, which is 370 K. The birefringence amplitude, at a given temperature, is proportional to the DR1 content and also depends on the sample thermal history. We proposed a model that accounts for the change in free volume of the polymer with temperature though representing an improvement to well-known models. We assume that the azobenzene group is inside a local free volume and the Gamma distribution function is used to describe a local free volume distribution in the sample while the Gaussian distribution function gives the thermal free-volume fluctuation. Isomerization of the azobenzene group only occurs if the local free volume is larger than a critical value. Comparison with the experimental data shows that the model explains the temporal evolution, the temperature dependence of the birefringence and how the birefringence is affected by the sample thermal history, as the sample free volume of the polymer depends on such history. azo-polímeros azo-polymers DR1 fotoisomerização free volume photoisomerization poliestireno polistyrene volume livre
16	Synthesis of Single Isomer Trisubstituted and Tetrasubstituted Olefins from E-β-Chloro-α-Iodo-α,β-Unsaturated Esters and Bergman Cycloaromatizations With and Without a Radical Trapping Agent Pianosi, Anthony 30 November 2011 (has links) Optimized methods for the regioselective and stereospecific synthesis of both trisubstituted and tetrasubstituted olefins as single isomers from E-β-chloro-α-iodo-α,β-unsaturated esters have been developed from previous work done in the Ogilvie lab. These optimized methods have led to the synthesis of trans isomeric enediynes that can be photoisomerized to their respective cis isomers and subsequently undergo microwave-assisted Bergman cycloaromatizations. Furthermore, both cis and trans isomeric enediynes that have propargyl ether substituents have been found to be able to undergo photoactivated Bergman cyclizations without the need for an intermolecular hydrogen donor. A mechanism study has confirmed that the Bergman cyclization products that form without the presence of an intermolecular hydrogen donor undergo a series of 1,5-hydrogen shifts as intermediates. A series of optimizations to these reactions were carried out, in part by utilizing electron-donating or electron-withdrawing functional groups to help stabilize the resulting radicals that form on the intermediates, and thus increase the yield of the associated Bergman cyclization products. Bergman cyclization olefin alkene trisubstituted olefins tetrasubstituted olefins radical trapping agent photoisomerization
17	Synthesis of Single Isomer Trisubstituted and Tetrasubstituted Olefins from E-β-Chloro-α-Iodo-α,β-Unsaturated Esters and Bergman Cycloaromatizations With and Without a Radical Trapping Agent Pianosi, Anthony 30 November 2011 (has links) Optimized methods for the regioselective and stereospecific synthesis of both trisubstituted and tetrasubstituted olefins as single isomers from E-β-chloro-α-iodo-α,β-unsaturated esters have been developed from previous work done in the Ogilvie lab. These optimized methods have led to the synthesis of trans isomeric enediynes that can be photoisomerized to their respective cis isomers and subsequently undergo microwave-assisted Bergman cycloaromatizations. Furthermore, both cis and trans isomeric enediynes that have propargyl ether substituents have been found to be able to undergo photoactivated Bergman cyclizations without the need for an intermolecular hydrogen donor. A mechanism study has confirmed that the Bergman cyclization products that form without the presence of an intermolecular hydrogen donor undergo a series of 1,5-hydrogen shifts as intermediates. A series of optimizations to these reactions were carried out, in part by utilizing electron-donating or electron-withdrawing functional groups to help stabilize the resulting radicals that form on the intermediates, and thus increase the yield of the associated Bergman cyclization products. Bergman cyclization olefin alkene trisubstituted olefins tetrasubstituted olefins radical trapping agent photoisomerization
18	Synthesis of Single Isomer Trisubstituted and Tetrasubstituted Olefins from E-β-Chloro-α-Iodo-α,β-Unsaturated Esters and Bergman Cycloaromatizations With and Without a Radical Trapping Agent Pianosi, Anthony 30 November 2011 (has links) Optimized methods for the regioselective and stereospecific synthesis of both trisubstituted and tetrasubstituted olefins as single isomers from E-β-chloro-α-iodo-α,β-unsaturated esters have been developed from previous work done in the Ogilvie lab. These optimized methods have led to the synthesis of trans isomeric enediynes that can be photoisomerized to their respective cis isomers and subsequently undergo microwave-assisted Bergman cycloaromatizations. Furthermore, both cis and trans isomeric enediynes that have propargyl ether substituents have been found to be able to undergo photoactivated Bergman cyclizations without the need for an intermolecular hydrogen donor. A mechanism study has confirmed that the Bergman cyclization products that form without the presence of an intermolecular hydrogen donor undergo a series of 1,5-hydrogen shifts as intermediates. A series of optimizations to these reactions were carried out, in part by utilizing electron-donating or electron-withdrawing functional groups to help stabilize the resulting radicals that form on the intermediates, and thus increase the yield of the associated Bergman cyclization products. Bergman cyclization olefin alkene trisubstituted olefins tetrasubstituted olefins radical trapping agent photoisomerization
19	Organic dyes for photoswitching and photovoltaic applications / Patel, Dinesh G. January 2007 (has links) Thesis (Ph. D.)--University of Washington, 2007. / Vita. Includes bibliographical references (leaves 159-168).
20	Síntese e caracterização das propriedades mesomórficas e óticas de cristais líquidos fotorresponsivos derivados do azobenzeno Moreira, Thamires dos Santos 23 February 2015 (has links) Submitted by Maike Costa (maiksebas@gmail.com) on 2016-05-20T14:36:07Z No. of bitstreams: 1 arquivo total.pdf: 6564375 bytes, checksum: cc7202d5f55c0bd22656d7a99ef5e9df (MD5) / Made available in DSpace on 2016-05-20T14:36:08Z (GMT). No. of bitstreams: 1 arquivo total.pdf: 6564375 bytes, checksum: cc7202d5f55c0bd22656d7a99ef5e9df (MD5) Previous issue date: 2015-02-23 / Coordenação de Aperfeiçoamento de Pessoal de Nível Superior - CAPES / Liquid crystals (LCs) are functional soft materials of dynamic nature with shape and anisotropic properties. Control of the intrinsic self-assembly and self-organization properties in LCs may be accomplished by incorporating an optical switch within the mesogenic structure, such as a photoresponsive azo group. In this context, this dissertation shows the synthesis and characterization of the mesomorphic and optical properties of compounds derived from 1,4-disubstituted azobenzenes. The molecules are designed in order to contain an azobenzene rod-shaped rigid core. At one end, the molecules hold substituents with different sizes, polarity, and electronic properties (NO2, Cl or OR groups). At the other end of the molecules are connected, via an eter bond, to chains of 6 or 11 carbons possessing a terminal polar hydrophilic group, such as hydroxyl or imidazolium salt. In another series of molecules, the peripheral region is built on anhydrophobic portion. They contain an high dipole moment carbonyl group of aliphatic and aromatic ester with or without mesogenic extension. The chemical structures of final compounds were characterized by spectrometric methods (IR,1H and 13C NMR). The mesomorphic properties were investigated by Polarizing Optical Microscopy and Differential Scanning Calorimetry. Among the eighteen molecules synthesized, seven are LCs. Our studies reveal an interesting relation between the stereoeletronic nature of terminal groups and the observed LC phase. The hydroxyl group generated nematic phase, while compounds with ester carbonyl show a lamellar polymorphism with SmA and SmC phases, indicating the carbonyl increase the stability of liquid crystalline phases. The compounds containing terminal imidazolium salts show only SmA phase with an interesting characteristic of keeping the phase up to room temperature. Preliminar studies of the azo group photoisomerization indicate that the phase may be broken by expose to UV light. Thus, this molecular system may have potential technological applications in the photocontrol of liquid crystalline phase and enhanced functions in optoelectronic devices. / Cristais líquidos (CLs) constituem materiais moles funcionais de natureza dinâmica com forma e propriedades anisotrópicas. O controle das propriedades intrínsecas de automontagem e auto-organização de CLs pode ser efetuado pela incorporação de um interruptor ótico, tal como um grupo espaçador azo fotorresponsivo. Neste contexto, esta dissertação apresenta a síntese e caracterização das propriedades mesomórficas e óticas de seis séries de compostos derivados do azobenzeno 1,4-dissubstituídos. As moléculas são constituídas pelo núcleo rígido central azobenzeno, e nas extremidades estão dispostos substituintes com diferentes tamanhos, polaridade e propriedades eletrônicas, como grupos NO2, Cl e OR. Na outra extremidade, conectados por uma ligação éter estão cadeias com 6 ou 11 carbonos, e na porção final grupos hidrofílicos polares, tais como hidroxila e sais de imidazólio, e também grupos com elevado momento dipolar lateral, como carbonila de ésteres de diferentes grupos (alifáticos e aromáticos). Os compostos foram caracterizados por espectroscopia na região do Infravermelho, Ressonância Magnética Nuclear de 1H e 13C. As propriedades mesomórficas foram investigadas por Microscopia Ótica de Luz Polarizada e Calorimetria Diferencial de Varredura. Entre as dezoito moléculas sintetizadas, sete foram CLs. Foi descoberta uma relação interessante entre a natureza estereoeletrônica dos grupos terminais e as fases exibidas. O grupo hidroxila terminal levou a geração de fase nemática, enquanto que os compostos com carbonila de ésteres exibiram um polimorfismo lamelar mais ordenado com fases SmC e SmA, indicando que as carbonilas aumentam a estabilidade das fases líquido cristalinas. Os compostos contendo sais de imidazólio terminal mostraram apenas SmA, com uma interessante manutenção da fase até a temperatura ambiente durante o resfriamento. Resultados obtidos no estudo da fotoisomerização do grupo azo destes compostos comprovaram a potencialidade de tais sistemas moleculares em aplicações tecnológicas como fotocontroladores da fase LC e de suas propriedades funcionais em dispositivos. Palavras-chave: Cristais líquidos, azobenzenos, fotoisomerização. Cristais líquidos Azobenzenos Fotoisomerização Azobenzene Photoisomerization Liquid crystals CIENCIAS EXATAS E DA TERRA::QUIMICA

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