Global ETD Search

21	Efeitos de solventes nos espectros de absorção e emissão da Dimethoxy Curcumin / Solvent Effects on Absorption and Emission Spectra of Dimethoxy Curcumin Tárcius Nascimento Ramos 07 April 2015 (has links) A Curcumin há muito tempo é utilizada como condimento, colorífico e na medicina tradicional asiática. Conhecida como açafrão-da-índia, recentemente tem chamado a atenção devido ao grande potencial medicinal. Surgiram trabalhos principalmente sobre seus supostos efeitos benignos no tratamento de câncer e Alzheimer porém não limitados a estas enfermidades. Na tentativa de otimizar as propriedades medicinais surgiu a Dimethoxy Curcumin, um composto sintético que apresenta maior citotoxicidade e estabilidade biológica que a Curcumin. A maioria das reações químicas e biológicas ocorrem em soluções e os efeitos dos solventes são de extrema importância e complexidade. Neste trabalho nós estudamos os efeitos dos solventes ciclohexano e acetonitrila nos espectros de absorção e emissão da Dimethoxy Curcumin. Consideramos a contribuição de diferentes isômeros e estados excitados usando a Teoria do Funcional Densidade Dependente do Tempo (TD-DFT) utilizando a aproximação Modelo Contínuo Polarizável para o solvente. Nós observamos que as energias de emissão dos estados singletos sofrem um deslocamento para o vermelho enquanto que os estados tripletos sofrem um deslocamento para o azul. Respondemos estas questões analisando a variação do momento de dipolo durante a transição. Neste trabalho encontramos boa concordância com os valores experimentais dos espectros de absorção, emissão, deslocamento espectral e deslocamento Stokes. / The Curcumin has long been used as a condiment, pigment and in the traditional Asian medicine. Known as turmeric, recently has attracted attention because of the large medical potential. Several studies were made mainly about the supposed benign effects in the treatment of cancer and Alzheimer but not limited to these diseases. Attempt to optimize their medicinal properties there appeared the Dimethoxy Curcumin, a synthetic compound that has a higher cytotoxicity and biological stability than Curcumin. Most of the chemical and biological reactions occur in solutions and the solvent effects are of great importance and complexity. In the present work, we study the effects of the solvents cyclohexane and acetonitrile in the absorption and emission spectra of Dimethoxy Curcumin. We consider the contribution of various isomers and excited states using the Time Dependent Density Functional Theory (TD-DFT) with the Polarizable Continuum Model (PCM) approximation for the solvent. We observe that the emission energy of the singlet states are red shifted while the triplet states are blue shifted. We address this by analyzing the dipole moment variation after the transition. We find good agreement with the experimental values for the absorption, emission, spectral shift and Stokes shift deslocamento Stokes Dimethoxy Curcumin efeitos de solventes energia de emissão TD-DFT. Dimethoxy Curcumin emission energy solvent effects Stokes shift TD-DFT.
22	Estudo teórico da reação de cicloadição [3+2] 1,3-dipolar para formação do anel isoxazolina utilizando teoria do funcional da densidade e modelos implícitos de solvente Toldo, Josene Maria January 2013 (has links) As reações de cicloadição 1,3-dipolar são uma poderosa ferramenta para a síntese de uma variedade de anéis heterocíclicos de cinco membros. A cicloadição de óxidos de nitrila à olefinas, em particular, é de considerável interesse para a obtenção de isoxazolinas, que são intermediários versáteis na síntese de produtos naturais e de materiais com potencial aplicação como cristais líquidos. A Teoria do Funcional da Densidade foi utilizada para estudar o mecanismo da reação cicloadição [3+2] 1,3-dipolar que ocorre, inicialmente, entre o óxido de benzonitrila e o ácido vinilacético. Para tal, foram empregados os funcionais PBE1PBE, B3LYP e CAM-B3LYP, no nível 6-311+G(2d,p). O efeito do solvente foi avaliado através dos modelos PCM e CPCM, com os solventes THF, acetonitrila e formamida. A análise dos Orbitais Moleculares de Fronteira e do recente modelo da distorção e interação do estado de transição (TS), foram utilizadas para explicar a regioquímica dos produtos obtidos e a formação do bisaduto 2:1, originário de duas sucessivas cicloadições envolvendo o óxido de benzonitrila. Na primeira etapa da reação, os cálculos evidenciaram a formação do produto 3,5-dissubstiuído. Embora existam diferenças quantitativas nas barreiras de ativação e reação calculadas com os três diferentes funcionais, a previsão dos produtos majoritários e estados de transição mais favoráveis é a mesma, independentemente do funcional utilizado. Contudo, a conformação dos estados de transição e dos produtos intermediário e final da reação sofre uma pequena alteração com a inclusão do efeito do solvente. A energia de ativação nas duas cicloadições aumenta com o incremento da polaridade do solvente, porém, a possibilidade de formação de uma ligação de hidrogênio no estado de transição é responsável por uma diminuição na energia total de ativação. Esse resultado está diretamente vinculado à polaridade do TS. Quando comparados os resultados obtidos com os dois modelos de solvente, observou-se que ΔE≠ e ΔEreação são essencialmente as mesmas, embora as energias eletrônicas calculadas com CPCM sejam levemente inferiores às calculadas com PCM. / The 1,3-dipolar cycloaddition reactions are a powerful tool for synthesizing a wide range of 5-membered heterocyclic rings. Particularly, the cycloaddition of nitrile oxides to olefins is considerably interesting to obtain isoxazolines, which are versatile intermediaries in the synthesis of natural products and materials with potential application such as liquid crystals. The Density Functional Theory has been used to study the [3+2] 1,3-dipolar cycloaddition reaction mechanism that initially occurs between benzonitrile oxide and vinylacetic acid. To do that, PBE1PBE, B3LYP and CAM-B3LYP functionals have been used at level 6- 311+G(2d,p). The solvent effect was evaluated through the PCM and CPCM models, with the THF, acetonitrile and formamide solvents. The analysis of the Frontier Molecular Orbitals and of the recent distortion and interaction model of transition state (TS) have been used to explain the regiochemistry of the products obtained and the formation of the bisadduct 2:1, which is originated from two successive cycloadditions involving benzonitrile oxide. In the first reaction step, the calculations showed the formation of the 3,5-dissubstituted product. Although there are quantitative differences in the activation and reaction barriers calculated with the three different functionals, the forecasting of more favorable majoritary products and transition states is the same, no matter the functional used. However, the conformation of the transition states and of the final and intermediary products of the reaction is slightly changed by the inclusion of the solvent effect. The activation energy of both cycloadditions increases with the polarity increment of the solvent, but the possibility of formation of a hydrogen bond in the transition state is responsible for a reduction of the total activation energy. That result is directly linked to the TS polarity. When we compare the results obtained with the two solvent models, we observe that ΔE≠ and ΔEreaction are essentially the same, although the electronic energies calculated with CPCM are slightly smaller than the ones calculated with PCM. Química teórica Cicloadição Teoria do funcional de densidade Efeito de solvente [3+2] 1,3-dipolar cycloaddition Solvent effects Density functional theory
23	EFFECTS OF SOLUTION COMPOSITION (SALTS, PH, DIELECTRIC CONSTANT) ON POLYELECTROLYTE COMPLEX (PEC) FORMATION AND THEIR PROPERTIES ZHANG, HUAN January 2018 (has links) No description available. Polymers Materials Science
24	A Kinetically Superior Rechargeable Zinc-Air Battery Derived from Efficient Electroseparation of Zinc, Lead, and Copper in Concentrated Solutions Chen, Peng, Wang, Xia, Li, Dongqi, Pietsch, Tobias, Ruck, Michael 05 March 2024 (has links) Zinc electrodeposition is currently a hot topic because of its widespread use in rechargeable zinc-air batteries. However, Zn deposition has received little attention in organic solvents with much higher ionic conductivity and current efficiency. In this study, a Zn-betaine complex is synthesized by using ZnO and betainium bis[(trifluoromethyl)sulfonyl]imide and its electrochemical behavior for six organic solvents and electrodeposited morphology are studied. Acetonitrile allowed dendrite-free Zn electrodeposition at room temperature with current efficiencies of up to 86%. From acetonitrile solutions in which Zn, Pb, and Cu complexes are dissolved in high concentrations, Zn and Pb/Cu are efficiently separated electrolytically under potentiostatic control, allowing the purification of solutions prepared directly from natural ores. Additionally, a highly flexible Zn anode with excellent kinetics is obtained by using a carbon fabric substrate. A rechargeable zinc-air battery with these electrodes shows an open-circuit voltage of 1.63 V, is stable for at least 75 cycles at 0.5 mAcm⁻² or 33 cycles at 20 mAcm⁻², and allows intermediate cycling at 100 mAcm⁻². info:eu-repo/classification/ddc/540 ddc:540
25	Hydrogen Abstraction by the Nighttime Atmospheric Detergent NO3·: Fundamental Principles Paradzinsky, Mark 10 June 2021 (has links) The nitrate radical (NO3·) was first identified as early as the 1881, but its role in atmospheric oxidation has only been identified within recent decades. Due to its high one-electron reduction potential and its reactivity toward a diverse set of substrates, it dominates nighttime atmospheric oxidation and has since been the subject of much work. Despite this, studies on NO3· hydrogen atom transfer reactions have been somewhat neglected in favor of its more reactive oxidative pathways. The first section of the dissertation will highlight the role of substrate structure, solvent effects, and the presence of a polar transition state on NO3· hydrogen abstractions from alcohols, alkanes, and ethers. In this work the acquisition of absolute rate constants from previously unexamined substrates was analyzed alongside a curated list of common organic pollutants degraded through hydrogen atom abstraction. It was found that NO3· reacts with low selectivity through an early polarized transition state with a modest degree of charge transfer. Compared to the gas-phase, condensed-phase reactions experience rate enhancement—consistent with Kirkwood theory—as a result of the polarized transition state. These insights are then applied to abstractions by NO3· from carboxylic acids in the next section. It was found that the rate constants for abstraction of α-carbons were diminished through induction by the adjacent carbonyl compared to the activation seen for the aforementioned substrates. The deactivation of abstraction by the carbonyl was found to be dramatically reduced as the substrate's alkyl chain was lengthened and/or branched. This apparent change in mechanism coincides with hydrogen abstraction of the alkyl chain for sufficiently large carboxylic acids and rules out the possibility of concerted bond breaking elsewhere in the molecule. Finally, the dissertation will cover some additional projects related to the overall nature of the work including examination of the kinetics of radical clock systems when complexed with metal ions and the examination of a highly oxidative biosourced monomer. / Doctor of Philosophy / The nitrate radical (NO3·) was first identified as early as the 1881, but its role in the breakdown of atmospheric pollutants has only been identified within recent decades. Operating primarily at night, NO3· serves as a major atmospheric oxidant—it breaks down pollutants by reactions that involve the removal of electrons from those substrates. This chemistry is particularly important in understanding the consequences of an increasingly industrialized world and the subsequent short-term health and environmental implications. Geographically, these reactions will occur in large concentrations near locations that contribute greatly to atmospheric pollution, such as above coal-powered plants, heavily industrialized areas, above the canopy of large forests, and immediately behind the engines of airplanes as they move through the sky. The proximity of these locations to large population centers has caused the pollutants to greatly impact human health. These contaminants have been linked to several of the leading global causes of death, such as ischemic heart disease, stroke, and respiratory illnesses. The first section of the dissertation will focus on the role of pollutant structure, the medium in which the reaction occurs, and the development of a charged complex when NO3· reacts with alcohols, alkanes, and ethers. These substrates are often found as the result of incomplete combustion when burning fuel or as products of even more sustainable biodiesels. In this work the exact rate constants were found for substrates that were previously unexamined and compared with similar known reaction rates. It was found that NO3· has a low preference for what it reacts with and passes through a modestly charged complex early in the reaction. Compared to gaseous reactions, reactions in a liquid environment proceed faster due to the formation of a charged complex. This was then applied to reactions with carboxylic acids in the next section. Carboxylic acids are often found in large concentrations above the canopy of large forests resulting from the oxidation of isoprenes that are naturally released from broad-leaf trees. It was found that these reactions were slower than reactions with alkanes as the development of the charged complex was inhibited due to the presence of an adjacent dipole. When the carboxylic acid was longer and/or more branched, the formation of the charged complex was no longer inhibited as the reaction site moved further from the dipole. A change in reaction pathway was observed when the acids were sufficiently large. This ruled out the possibility of the reaction occurring simultaneously with a fracturing and rearrangement elsewhere. Finally, the dissertation will cover some additional projects that share some overlap with the work already described including the study of the rates of radical clock systems in the presence of metal ions and the study of naturally sourced monomers that are prone to losing electrons. nitrate radical laser flash photolysis kinetics polar transition state polarized transition state hydrogen atom transfer solvent effects hydrogen bonding
26	Study of Synthesis, Reactions and Enantiomerization of C<sub>α</sub>-Chiral Grignard Reagents Patwardhan, Neeraj Narendra 06 June 2012 (has links) The development of chiral organometallics for asymmetric synthesis is a topic of significant research in the recent past. The most studied in this class are the chiral organolithium reagents with many reported examples. The primary focus of our research is the development of C<sub>α</sub>-chiral Grignard reagents, where the metal bearing α-carbon is the sole source of chirality. Examples of such Grignard reagents are rare owing to the problems associated with their synthesis, and their low configurational stability. We have studied these problems in three different modules of this project. Reactions of 1-magnesio-2,2-diphenyl-cyclopropylcarbonitrile with carbon electrophiles are first attempted in order to expand the utility of this configurationally stable C<sub>α</sub>-chiral Grignard reagent in asymmetric synthesis. This reagent has been shown to be non-reactive towards carbon electrophiles at low temperatures. Consequently, we attempt to enhance the reactivity of this compound through two different approaches, Lewis-base activation and the "ate-complex" generation. The Magnesium/Halogen (Mg/X) exchange reactions have been shown to be extremely useful in the synthesis of complex Aryl, alkenyl (sp²) and alkynyl (sp) Grignard reagents. Examples of Mg/X exchange reactions of Alkyl (sp³) halides are, however, rare. Even more rare are such examples with secondary and tertiary alkyl halides, justifying the relative paucity of chiral Grignard reagents. In this module of our project, we study the Mg/X exchange reactions on secondary alkyl halides possessing a γ-hydroxyl group, as an internal activator for such Mg/X exchange reactions. Enantiomerization pathways of chiral organolithium compounds have been widely studied. However, few such studies have been performed on chiral Grignard reagents. In this module of the project, we studied the solvent assisted enantiomerization mechanism of the C<sub>α</sub>-chiral 1-magnesio-2,2-diphenyl-cyclopropylcarbonitrile. Rate constant for the enantiomerization of this compound was measured in three different ethereal solvents to study the effect of solvent on the configurational stability. Finally, the order of the enantiomerization process with respect to [Et₂O] was studied in order to predict the mechanism of this process in Et₂O solvent. Our kinetic studies on the enantiomerization process provided us with a definitive picture for the enantiomerization of the C<sub>α</sub>-chiral 1-magnesio-2,2-diphenyl-cyclopropylcarbonitrile, where solvation of the Grignard reagent preceded an ion-pair separation step which eventually lead to enantiomerization of the Grignard species. However, the precise structure of all the involved solvated intermediates could not be determined as kinetics was not able to distinguish between these intermediates. We next performed computational calculations to study the effect of solvation on the analogous 1-magnesio-cyclopropylcarbonitrile in order to address the unanswered questions from our kinetic studies. / Ph. D. enantiomerization kinetics chiral Grignard reagents solvent effects reaction order ion-pair separation entropy of activation electrostriction DFT calculations
27	Solvent induced microcracking in high performance polymeric composites Clifton, A. Paige 18 November 2008 (has links) The first paper, “Dye Penetrant Induced Microcracking in High-Performance Thermoplastic Polyimide Composites”, studied the possibility of spurious microcracking in three high-performance thermoplastic polyimide composite materials due to zinc iodine dye penetrant. The material systems were IM7/LaRC™-IAX, IM7/LaRC™-IAX2, and IM7/LaRC™-8515. Specimens from each material system were subjected to one of three immersion tests. The first immersion test involved soaking composite specimens previously prepared with different polishing techniques in dye penetrant. In the second test, specimens were immersed in the individual components of the dye penetrant. The final test involved exposure of specimens to one of six solvents followed by exposure to dye penetrant. Results showed that the composite materials have sufficiently high thermal residual stresses to drive microcracking in the presence of dye penetrant without external mechanical loading. There was no evidence that the different polishing techniques had an effect on dye penetrant-induced stress cracking. The dye penetrant components did not produce microcracks in the composites. Some combination of the components must be present to induce microcracking. Observations also revealed that polishing had an effect on the microcracking process of the composites that were initially exposed to solvents then dye penetrant. The second paper, “The Effect of Environmental Stress Cracking on High-Performance Polymeric Composites”, studied solvent stress cracking and solvent-induced strength degradation on four polyimide matrix materials developed at NASA-Langley Research Center. These materials are LaRC™-IAX, LaRC™-IAX2, LaRC™-8515, and LaRC™-PETI-5. Cross-ply specimens were used to characterize solvent stress cracking in composites. Matrix cracking due to solvent exposure was observed in all of the materials. The solvent exposure time of the materials ranged from 1 minute to 96 hours. The results show that residual thermal stresses due to processing in the cross-ply composite specimens are sufficient to drive solvent stress cracking in the matrix. Solvent application lowers the microcracking toughness, G<sub>mc</sub> ,values such that the available strain energy, G<sub>m</sub>, within the transverse ply groups is sufficient to initiate microcracking. In the absence of a solvent, the same G<sub>m</sub> value would not induce microcracking. Transverse flexure tests were performed on unidirectional specimens to determine the effects of the solvents on the material strengths. The presence of certain solvents severely degraded the materials. The manner in which the solvents were applied to the materials determined the degree of material degradation. The results revealed a synergistic effect between stress and solvent. The tests showed that diglyme, MEK, and acetone produced the most severe damage to the materials. The most solvent resistant material was LaRC™-PETI-5. This is followed by LaRC™-8515, LaRC™-IAX2, and LaRC™-IAX respectively. LaRC™- PETI-5 is a thermoset whereas the remaining materials are thermoplastics. / Master of Science dye penetrant effects solvent effects matrix cracking environmental stress cracking fracture mechanics transverse flexure tests LD5655.V855 1996.C554
28	Aspects of the chemistry of 1,4-naphthoquinones : an investigation of nucleophilic substitution reactions of alkylamines and hydroxyalyklamines on 1,4 napthoquinones and the role of solvent on the position of substitution Mahmood, Tariq January 2012 (has links) Nucleophilic substitution reactions of alkylamines, cyclic alkylamines, and hydroxyalkylamines with 5-substituted-1,4-naphthoquinones have been studied. It has been found that the nature of the solvent employed in the reaction influences the position of mono-substitution at either the 2- or 3-position. Although both regioisomers were produced in all the reactions, protic polar solvents favoured the formation of the 3-regioisomer, whereas non-protic solvents favoured the formation of the 2-regioisomer. It has also been found that formation of 2,3-diaminoalkyl derivatives is normally unlikely. A series of hydroxyalkylamino-1,4-naphthoquinones were also synthesised. The collision-induced dissociation mass spectra of protonated hydroxyalkylamino-1,4- naphthoquinones showed fragmentation patterns which were dependent on the nature and length of the side chain and the presence and nature of the adjacent group on the 3-position on the 1,4-naphthoquinone ring. A total of 27 novel compounds were synthesised during the course of this research, the structures of which were confirmed via 1D and 2D NMR spectroscopy, mass spectrometry (ESI), IR spectroscopy and high resolution mass spectrometry (HRESIMS and HREIMS). 547
29	Modelo discreto de solvente. Solvatocromismo no espectro de absorção molecular / Discrete model of the solvent. Solvatochromic at the absorption spectrum molecular. Coutinho, Kaline Rabelo 18 December 1997 (has links) Um procedimento baseado no uso sequencial de simulação Monte Carlo e cálculos de Mecânica Quântica é proposto e usado para o tratamento de efeitos de solvente, com especial atenção parao sovatocromismo no espectro de absorção molecular. A ideia básica é realizar simulações clássicas com o método Monte Carlo para gerar estruturas supermoleculares do sistema em solução e em seguida tratar estas supermoléculas (soluto, solvente e suas interações) com cálculos quânticos. Um modelo totalmente discreto do solvente é utilizado e, portanto, o uso de meios dielétricos contínuos é dispensado. Neste procedimento, as supermoléculas são compostas por uma molécula do soluto rodeada pela primeira camada de solvatação definida através da função distribuição. Os efeitos de solvente são calculados usando médias configuracionais sobre estruturas supermoleculares descorrelacionadas obtidas através de análises estatísticas das simulações. Como aplicação, os deslocamentos espectrais da primeira banda de absorção do benzeno 1B2u(- ), devido a presença de diversos solventes, foram analisados e calculados. Boa concordância com os resultados experimentais foram obtidos. / A approach based on the sequential use of Monte Carlo simulation and Quantum Mechanics is proposed and use for the treatment of solvent effects with special attention to solvatochromic shifts. The basic Idea is to perform a classical Monte Carlo simulation to generate supermolecular structures of the system, then to treat these supermolecules (solute, solvent and all its interaction) by quantum mechanics. This is a totally discrete modelo f the solvent that avoids the use of a dielectric continuum. In this approach, the supermolecules are composed by the solute molecule surrounded by the first solvation Shell as determined by the distribution function. The solvent effects are calculated using ensemble average over uncorrelated supermolecular structures obtained by statistical analysis. As na application, the spectral shifts of the 1B2u(- ) trnsition of benzene in different solvents are investigated. Good agreement with the experimental results are obtained. Computer simulation of liquids Efeitos de Solvente Espectro de Absorção Molecular Método Monte Carlo Molecular Absorption Spectrum Monte Carlo method Simulação computacional de líquidos solvatochromism Solvatocromismo solvent effects
30	Betalaínas funcionais: semissíntese, propriedades fotofísicas e interações intermoleculares / Functional betalains: semisynthesis, photophysical properties and intermolecular interactions Rodrigues, Ana Clara Beltran 19 May 2017 (has links) Betalaínas são alcalóides coloridos e com alta capacidade antioxidante que são encontrados em plantas e fungos. A biossíntese destes produtos naturais baseia-se na conversão enzimática da L-tirosina em ácido betalâmico e na condensação aldimínica deste com aminoácidos. A semissíntese de betalaínas naturais para aprofundar o estudo desta classe de pigmentos estimulou o desenvolvimento de betalaínas artificiais, incluindo derivados funcionais. Uma betalaína cumarínica foi criada para ser usada como sonda fluorescente para marcação de Plasmodium falciparum em glóbulos vermelhos. Esta Tese de Doutorado apresenta a semissíntese e estudo de três betalaínas cumarínicas (cBeets) e uma carboestiril-betalaína (csBeet). Procurou-se estabelecer relações entre as estruturas destes compostos e suas propriedades físico-químicas e fotofísicas como ponto de partida no desenvolvimento de uma nova classe de betalaínas funcionais. São apresentados dados sobre a lipofilicidade, estabilidade frente à hidrólise, potencial redox, absorção de um e dois fótons e fluorescência. Interações intermoleculares destes compostos foram investigadas por medidas de fluorescência em misturas binárias de solventes polares, albumina sérica bovina e micelas reversas de AOT em heptano/água. / Instituto de Química, Universidade de São Paulo, São Paulo, 2017. Betalains are colorful alkaloids with high antioxidant capacity that are found in plants and fungi. The biosynthesis of these natural products is based on the enzymatic conversion of L-tyrosine into betalamic acid and aldimine condensation thereof with amino acids. The semisynthesis of natural betalains improved the knowledge on this class of pigments and stimulated the development of artificial betalains, including functional derivatives. A coumarinic betalain was created to be used as a fluorescent label for Plasmodium falciparum on red blood cells. This Doctoral Thesis presents the semisynthesis and study of three coumarin betalains (cBeets) and one carbostyril betalain (csBeet). It was sought to establish relationships between the structures of these compounds and their physical-chemical and photophysical properties as a starting point in the development of a new class of functional betalains. Data on lipophilicity, hydrolysis stability, redox potential, one- and two-photon absorption and fluorescence are presented. Intermolecular interactions of these compounds were investigated by fluorescence measurements in binary polar solvent mixtures, bovine serum albumin and AOT reverse micelles in heptane/water. Absorção de dois fótons Absorption of two photons Betalaínas Betalains Coumarins Cumarinas Efeitos de solvente Fluorescência resolvida no tempo Interação com proteínas Interaction with proteins Solvent effects Time-resolved fluorescence

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