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Novel Polymer–Silica Composite-Based Bifunctional Catalysts for Hydrodeoxygenation of 4-(2-Furyl)-3-Buten-2-One as Model Substance for Furfural–Acetone Aldol Condensation ProductsGoepel, Michael, Ramos, Ruben, Gläser, Roger, Kubiˇcka, David 06 April 2023 (has links)
Novel bifunctional metal-loaded polymer–silica composite (PSC) catalysts were investigated
in the hydrodeoxygenation (HDO) of 4-(2-furyl)-3-buten-2-one (FAc) as a model substance for
furfural–acetone aldol condensation products. PSC catalysts were synthesized via a sol–gel method
with different polymer contents and subsequently doped with different noble metals. The product
composition of the HDO of FAc could be tuned by using catalysts with different polymer (i.e., acidic
properties) and metal content (i.e., redox properties), showing the great potential of metal-loaded PSC
materials as tunable catalysts in biomass conversions with complex reaction networks. Furthermore,
high yields (>90%) of the fully hydrodeoxygenated product (n-octane) could be obtained using noble
metal-loaded PSC catalysts in only 8 h of reaction time.
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Acetone-LIF at Elevated Pressure and Temperature for 282nm Excitation: Experiments and ModelingHartwig, Jason William January 2010 (has links)
No description available.
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Miscibility, Viscosity, Density, and Formation of Polymers in High-Pressure Dense FluidsLiu, Kun 18 January 2008 (has links)
This thesis is an experimental investigation of the phase behavior, volumetric properties, and viscosity of poly (methyl methacrylate) (PMMA), poly (ε-caprolactone) (PCL) and their blends. Homopolymerization and copolymerizations of methyl methacrylate (MMA) and 2-methylene-1,3-dioxepane (MDO) in mixtures of acetone + CO2 have also been explored.
The viscosities and densities of acetone + CO2 mixtures were measured in the temperature range 323-398 K at pressures up to 35 MPa. This is the first study in which viscosity of acetone + CO2 mixtures have been measured and the mixtures have been evaluated as solvents for PCL. It is shown that PCL can be readily dissolved in these fluid mixtures at modest pressures even at high carbon dioxide levels. Investigations have been conducted over a temperature range from 323 to 398 K at pressures up to 50 MPa for polymer concentrations up to 20 wt %, and CO2 concentrations up to 60 wt %. It is shown that in these mixtures PCL is dissolved at pressures that are much lower than the pressures reported for miscibility in the mixtures of carbon dioxide with other organic solvents. It is shown that PMMA also readily dissolves at modest pressures. Blends of PMMA and PCL require higher pressures than for the individual polymers for complete miscibility.
Free-radical polymerizations of MMA in acetone at 343 K were followed using in-situ measurements of viscosity and density at different pressures from 7- 42 MPa. This is the first time viscosity has been used as a real-time probe of high pressure polymerizations. Two distinct kinetic regimes were identified. Homopolymerizations of MDO were conducted in carbon dioxide at 323 and 343 K at pressures up to 42 MPa. For the first time it is shown that high molecular weight PCL can be produced from MDO in high pressure CO2. Ring-opening free-radical copolymerizations of MDO with MMA, styrene and acrylonitrile were conducted for the first time in carbon dioxide and have been shown to lead to polymers with high molecular weights. / Ph. D.
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FTIR measurement of monomer fractions in dilute alcohol-acetone systems for the evaluation of the sPC-SAFT EoSKruger, Francois Johan 12 1900 (has links)
Thesis (MScEng)-- Stellenbosch University, 2013. / ENGLISH ABSTRACT: The simplified Perturbed-Chain Statistical Associating Fluid Theory (sPC-SAFT) is characterised by the
dual advantages of decreased computational intensity, while remaining accurate for a variety of
systems. Vapour-liquid equilibrium data are used to generate equation of state parameters.
However, incorporating monomer fraction data into the parameter regression has long been
advocated as a good, or even preferred, practice. Therefore, the monomer fraction data of dilute
alcohol-acetone systems were analysed in this study. A small stainless steel sample vessel was
constructed with temperature control, manual pressure control and a mechanism for liquid phase
analysis via infrared spectroscopy.
The performance of the spectrometer was verified by comparison with the ethanol – n-hexane data
of von Solms et al. (2007), after which new monomer fraction data were obtained for dilute
solutions (between 0.01 and 1.5 mol%) of methanol, ethanol, 1-propanol and 2-propanol in acetone
near 23 °C.
For dilute alcohol-acetone systems it was found that the propanols had the highest monomer
fractions, and methanol the lowest. With increasing alcohol concentration, the monomer fractions
decreased exponentially to values of 0.4 and 0.1 for methanol and the other alcohols respectively.
The excess availability of hydrogen bond acceptors in the mixtures explains the equivalency
observed for ethanol, 1-propanol and 2-propanol.
For dilute acetone-alcohol systems it was found that, especially for methanol and ethanol, there was
a pronounced trend towards acetone monomer fractions of 1 at infinite dilution. For the acetone –
2-propanol system, a previously unrecorded monomer peak was observed and quantified. Acetone
monomer fractions tended to decrease as alcohol chain-length increased, showing that acetone
could more easily penetrate the hydrogen bond network of the solvent when the solvent-solvent
bonds were weaker. Monomer fraction data were compared to predictions for the sPC-SAFT scheme and parameters
combinations published in the literature. The experimental data were accurately modelled using
modified association parameters such that the solute associates strongly (εAB≈103 κ≈1), while the
solvent parameters were decreased (εAB≈102 κ≈10˗3) to give a weakened solvent association effect.
The difficulty for the dilute solute in penetrating the solvent bonding network appeared to be similar
to the hydrophobic effect. Two new association schemes were proposed for acetone, assigning a single (N) or two (2N)
negative association sites to represent the oxygen valence electron pairs. These schemes showed
relative success in modelling acetone as the solvent in the mixture, while not being able to predict
acetone monomer fractions when acetone was the solute. For dilute acetone-alcohol systems, the
data were best described using the 2B model for acetone, while the best choice of scheme for the
alcohol varied from system to system.
For dilute alcohol-acetone mixtures it was generally found that a 2B-N model (with modified
association parameters) provided the best fit to those experimental data. Accurate modelling below
0.1 mol% was difficult to attain with average errors decreasing to the order of 10% when this area
was excluded. In this highly dilute region, not one of the models could describe the rapid change in
(monomer fraction) gradient sufficiently while simultaneously offering accurate predictions over the
entire experimental range. / AFRIKAANSE OPSOMMING: Die sPC-SAFT of simplified Perturbed-Chain Statistical Associating Fluid Theory toestandsvergelykings
word wyd gebruik as gevolg van sy goeie akkuraatheid vir ‘n wye reeks sisteme, ten spyte van
verminderde berekeningsintensiteit. Die parameters vir dié toestandsvergelyk word afgelei van faseewewig
data, maar monomeer fraksie data word voorgestel vir die verbetering van (veral) die
assosiasie parameters. Ten opsigte hiervan, was alkohol-asetoon sisteme bestudeer en hul
monomeer fraksies gemeet. ‘n Staal reaktor was ontwerp (met ‘n temperatuurbeheerstelsel sowel
as drukbeheer) om vloeistof monsters voor te berei vir analise d.m.v. infrarooi-spektroskopie.
Die akkuraatheid van die eksperimentele apparaat is bewys deur nabootsing van etanol – n-heksaan
data van von Solms et al. (2007), waarna nuwe monomeer fraksie data gegenereer is vir verdunde
mengsels (0.01 tot 1.5 mol%) van metanol, etanol, 1- en 2-propanol met asetoon by 23 °C.
Metanol monomeer fraksies het eksponensieël afgeneem na 0.4, terwyl etanol en propanol fraksies
afgeneem het na ‘n gemene waarde van ongeveer 0.1. Hierdie tendens word toegeskryf aan ‘n
oormaat van toeganklike waterstofbindingontvangers in hierdie mengsels.
Vir verdunde asetoon-alkohol sisteme is daar ‘n tendens, (veral vir verdunnings met metanol en
etanol) vir die monomer fraksies om te neig na 1 by oneindige verdunning. ‘n Monomeer piek is ook
waargeneem vir die asetoon – 2-propanol sisteem. Hierdie piek is nie voorheen gesien in ander
studies nie en dit is ook die eerste keer wat sulke data gekwantifiseer is. Daar is bevind dat asetoon
monomeer fraksies afneem soos alkohol kettinglengte toeneem.
Die gegenereerde monomeer fraksie data word vergelyk met verskeie sPC-SAFT parameterstelle
vanuit die literatuur. Oor die algemeen, is die beraamde fraksie veel hoër as die eksperimentele data
wanneer die 2B/3B/2C skemas met ‘n nie-assosiërende asetoon molekuul gemodelleer word.
Wanneer die 2B parameters van von Solms et al. (2004) gebruik word, toon die beraming ‘n
drastiese onderskatting van die data. Om ‘n akkurate beraming van die monomeer fraksie data te kry, moet die assosiasie parameters van
die opgeloste stof vermeerder word (met εAB≈103 κ≈1) terwyl die oplosmiddel s’n drasties verswak
moet word (met εAB≈102 κ≈10-3). Hierdie patroon kan vergelyk word met die hidrofobiese effek waar
die kragte binne die oplosmiddel ‘n netwerk vorm wat die opgeloste stof uitstoot. Twee nuwe assosiasie skemas word ook voorgestel vir asetoon waar onderskeidelik een (N) en twee
(2N) negatiewe sones, wat die valenselektroonpare op die suurstofatoom voorstel, aan asetoon
geheg word. Hierdie twee skemas het relatiewe sukses getoon in die modellering van verdunde
alkohol-asetoon sisteme terwyl dit ‘n swak beskrywing van die verdunde asetoon-alkohol mengsels
voorspel het. ‘n Gewysigde 2B asetoon skema gee ‘n goeie beskrywing van die eksperimentele data.
In hierdie geval, is die keuse van alkohol skema minder belangrik, terwyl die waardes van die
assosiasie parameters verminder moet word.
Vir verdunde alkohol-asetoon mengels word daar bevind dat ‘n 2B-N model met nuwe assosiasie
parameters die beste passing van die eksperimentele data gee. Daar was ook bevind dat die modelle
se akkuraatheid drasties afneem (met fout vermeerdering in die orde van 10%) wanneer die
konsentrasie van die opgeloste stof minder as 0.1 mol% is.
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Experimental comparison of heat pipes and thermosyphons containing methanol and acteoneStrain, Jana 26 April 2017 (has links)
The cold chain industry has a need for a standalone, electricity independent cooling unit that is used for both storage of warehouse product and on deliveries [1]. Mixed temperature fresh and frozen food deliveries are problematic without the distributor having specialized duel compartment refrigerated trucks [2]. These trucks permanently reduce the available capacity for payload delivery [2]. It would be valuable to the cold chain industry to have a passive, independent, storage unit that can be moved using a forklift and placed anywhere within a reefer or warehouse [1]. This versatile unit is a simple mechanical system, but presents a complicated thermal problem. One of the design challenges is to thermally isolate the load from the environment and to maintain thermal conditions for a specified length of time.
A proposed storage system uses heat pipes to connect the cargo compartment to a heat sink containing solid CO2. Heat pipes are a simple, passive, and quiet way to transfer heat. Heat pipe design and theory is an active area of research with numerous papers in the literature; however, there is less reported about the actual process of manufacturing. This thesis investigates a new potential application of heat pipes, with a focus on the manufacturing process and experimental performance.
A total of four heat pipes and two thermosyphons are created using acetone and methanol as the working fluids, and copper and aluminum as the heat pipe housing. Performance is compared to an insulated copper tube with the same outer dimensions, where the primary performance metric is steady-state thermal resistance. In addition, transient performance is quantified as well as the temperature distribution along the outer in the evaporator, adiabatic and condenser regions.
Results show that the prototypes made out of copper reached steady-state faster than the aluminum pipes, while also having a smaller temperature differential between the evaporator and condenser. Methanol and acetone have similar performance over the temperature ranges of 198 K to 358 K. The best performing prototype is a copper thermosyphon containing methanol which achieves an effective thermal resistance of 2.0 K/W with an applied load of 40.7 W, when the condenser is cooled with dry ice in acetone. When cooled with ice water the copper thermosyphon achieves an effective thermal resistance of 0.5 K/W with a load of 40.7 W. / Graduate / 0548 / jstrain@uvic.ca
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Association Between Smoking, Chemical Exposure and Hearing Loss in an Occupational SettingOlive, Darlene W. 01 January 2006 (has links)
Objective: Twenty-two million Americans or roughly 8% of the population are hearing impaired. This affects more than just the ability for one to hear. In the last three decades, younger Americans have shown a sharp increase in hearing impairment. Hearing loss affects social and emotional well being and thus has the ability to decrease one's quality of life. This study was designed to examine the association between smoking, workplace chemical exposure, and hearing loss.Methods: This cross-sectional population-based study was conducted in an occupational health clinic setting in Virginia. The study population consisted of employees from local businesses who visited the clinic during the period of 1/1/03 to 1/1/05 for pure tone audiometry. Chart reviews supplemented by telephone interviews were conducted to extract data for analysis. All study subjects were eligible to participate except for those who were unable to communicate due to a language barrier. Prevalence and crude prevalence ratios were calculated. Adjusted prevalence ratios and prevalence odds ratios were calculated using Cox and logistic regression models. Data entry and statistical analysis were accomplished with the SPSS Data Builder and the SPSS 13.0 statistical software. SAS statistical software was also used for a portion of the statistical analysis.Results: In a Cox regression model controlling for many potential confounding factors (age, race, smoking, chemical exposure, military service, as well as others) cigarette smoking was not associated with hearing loss PR(95% CI), 1.0 (0.7, 1.3). Similarly, exposure to chemicals was not associated with hearing loss 1.1 (0.7, 1.6).Conclusion: This study did not find an association between cigarette smoking and hearing loss and exposure to industrial chemicals and hearing loss in persons who worked in a noisy occupational environment.
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Cobalt and cadmium chalcogenide nanomaterials from complexes based on thiourea, urea and their alkyl derivatives : synthesis and characterizationMorifi, E. L. January 2015 (has links)
M. Tech. (Department of Chemistry, Faculty of Applied and Computer Science), Vaal University of Technology / Cadmium and cobalt complexes of urea and thiourea were synthesized using ethanol as a solvent. All complexes were refluxed at 70 - 80 °C, left to cool at room temperature, washed with methanol and acetone to remove impurities and dried at an open environment. The characterization of complexes was done using FTIR spectroscopy, elemental analysis and TGA. The complexes were found to coordination with the ligands through sulphur and oxygen atoms to the metal, instead of nitrogen. These were as results of wavelength shifting from high to low frequency from spectra of the complexes as compare to their free ligands. These observations make these complexes good candidates for the possible use in synthesis of metal sulphides or oxides nanoparticles. Thermogravimetric analyses of all the complexes were conducted to check the stability of use as precursors for nanoparticles at low and high temperature. A number of thiourea and urea complexes with cadmium and cobalt have been prepared and used in the preparation of metal sulphides/oxides nanoparticles. Complexes start to decompose at low temperature about 100°C and the last decomposition step was at about 800-900°C, which is convenient to thermal decomposition of precursors in the high boiling solvents or capping agent to prepare surface capped metal sulphides/oxides nanoparticles. The complexes were easy to synthesize, low cost and stable in air and were obtained in reasonable yields.
All the complexes reported in this study have been used as single source molecular precursor in the preparation of cadmium oxide, cadmium sulphide, cobalt oxide, cobalt sulphide nanoparticles (normal) and as mixture of any two complexes to form core-shells nanoparticles. Quality nanoparticles synthesis requires three components: precursors, organic surfactants and solvents. The synthesis of the nanoparticles can be thought of as a nucleation event, followed by a subsequent growth period. Both the nucleation and growth rates were found to be dependent upon factors such as temperature, growth time, and precursor concentration. For a continuous flow system the residence time (at nucleation and growth conditions) was also found to be important. In order to separate the nucleation and growth events, injection techniques were employed to achieve rapid nucleation of nanoparticles with final size dictated by the growth temperature and/or residence time through the growth zone of the reaction system.
Good crystalline normal nanoparticles were obtained from thermolysis of the precursors in hexadecylamine (HDA) as the capping agent at fixed concentrations, temperature and time. All nanoparticles showed a blue-shift in band edges with good photoluminescence behaviour which is red-shifted from their respective band edges and XRD patterns, the crystal structure are in hexagonal phase. The particles showed rods, spheres and hexagonal shapes. Nucleation and growth mechanism brings new avenue in nanostructures called core-shells, which have been reported to have improved luminescence, quantum yields, decreased fluorescence lifetimes, and benefits related to the tailoring of the relative band-gap positions between the two materials. In this study cadmium and cobalt complexes of urea and thiourea were separately dispersed in TOP and injected separately (allowing nucleation/core to occur, followed by the shell) in hot HDA at 180ºC for 1hour to yield core-shell nanoparticles. Parameters, such as concentration, temperature and capping molecule as factor affecting nucleation and growth of the core-shells were monitored. The core-shell nanoparticles were characterized by UV/Vis spectroscopy, XRD and TEM. We observed spherical, tripod, bipods, hexagonal and irregular shaped nanoparticle as the concentration of the precursors was increasing, however we were able to form core-shells nanoparticles in one set of experiment 1:3 CdS-CdO, which are assumed to be a reverse type I coreshells nanoparticles. Exciton absorption peaks at higher energy than the fundamental absorption edge of bulk indicate quantum confinement effect in nanoparticles as a consequence of their small size. XRD patterns, crystals range from hexagonal, cubic and mixture of hexagonal and orthorhombic. A low temperature studies were also conducted a mixture of hexagonal and sphererical shapes with sheets like onion morphology were observed. / NRF
HUB & SPOKES (VUT)
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Estudo de catalisadores de Ni/ZnO promovidos com CeO2 aplicados em reações de reforma a vapor do etanol e acetona / Study of Ni/ ZnO catalysts promoted with CeO2 applied in steam reforming reactions of ethanol and acetoneElias, Kariny Ferreira Monteiro 27 April 2016 (has links)
A produção de energia é um dos grandes desafios deste século, principalmente com a necessidade no desenvolvimento de processos que utilizem preferencialmente fontes renováveis. Nesse contexto, é claro o interesse por pesquisas baseada no hidrogênio. Porém, os ganhos ambientais efetivos estão associados também à matéria-prima usada no processo de geração do hidrogênio, senso assim mais significativo quando do uso de fontes renováveis. No presente trabalho foi estudado o efeito da adição de diferentes teores de CeO2 em catalisadores de NiZnO, preparados pelo método da co-precipitação. Os catalisadores foram estudados frente à reação de reforma a vapor do etanol (RVE) para produção de H2, e no decorrer do trabalho foi pertinente incluir o estudo da reforma a vapor da acetona (RVA), como complemento dos estudos da RVE. Além disso, esta é uma molécula modelo para reforma a vapor do bio-óleo. Nos sistemas catalíticos sintetizados houve a formação da liga NiZn3, o que aparenta proporcionar um efeito sinérgico entre esses elementos. Observou-se um efeito altamente promotor do CeO2 com relação a diminuição do coque formado, devido a uma menor da formação da acetona, durante as etapas de reforma do etanol. O que consequentemente interferiu na produção de H2. O catalisador contendo 20% de CeO2 denominado NiZn20Ce apresentou um desempenho altamente promissor, pois de acordo com as análises de DRIFT, a presença do CeO2 levou a formação de espécies de formiato, o que consequentemente interferiu em uma menor formação de coque e maior produção de H2. Foi comprovado também que a natureza dos depósitos carbonáceos depende tanto do substrato utilizado quanto das etapas precursoras inicias que levarão a formação desse coque, sendo o ponto chave para um melhor desempenho do catalisador. / Energy production is one of the great challenges of this century, especially with the need to develop processes that use preferentially renewable sources. In this context, it´s evident the interest in research based on hydrogen. However, the environmental benefits are also associated with the raw material used on the hydrogen generation process, being more significant when used renewable sources. In the present work, it was studied the effect of CeO2 addition in NiZnO catalysts, prepared by coprecipitation method. The catalysts were studied front of the ethanol steam reforming reaction (ESR) to produce H2, and in the course of this study was relevant include study of acetone steam reforming (ASR), as a complement of ESR studies. Moreover, acetone is a molecule model for steam reforming of bio-oil. In the catalyst systems there has been the NiZn3 alloy formation, which provides a synergistic effect between these elements. It was observed a high CeO2 promoter effect regarding reduction of the formed coke, due to lower formation of acetone in the ethanol reforming steps, and consequently interfere in the H2 production. The catalyst denominated NiZn20Ce showed a high performance, according to DRIFT analyzes, the presence of the CeO2 led to the formation of species formate, which in turn interfere through a lower coke formation and higher H2 production. It was also established that the nature of the carbonaceous deposits depends as the substrate used as the precursors initial steps that led the formation of this coke, and it is the key to a better performance of the catalyst.
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Espécies excitadas tripletes em sistemas biológicos - visita à hipótese de \"fotobioquímica no escuro\" de Giuseppe Cilento / Triplet excited species in biological systems - a visit to the \"photobiochemistry without light\" hypothesis from G. CilentoMano, Camila Marinho 02 December 2013 (has links)
Espécies carbonílicas tripletes formadas quimicamente no escuro, por exemplo, durante a peroxidação de lipídios, têm reatividade química análoga à de radicais alcoxilas. Aventou-se que tais espécies possam estar implicadas na fisiopatologia de doenças degenerativas (\"estresse carbonílico\"). A pesquisa dos efeitos de espécies tripletes sobre algumas biomoléculas e consequentes respostas biológicas, propostas e pesquisadas no período 1970 - 1990 (hipótese de \"fotoquímica sem luz\" dos Profs. G. Cilento, IQUSP, e Emil H. White, Johns Hopkins University), encontrou empecilhos instrumentais e relativamente poucas propostas foram confirmadas. Com o uso de técnicas de alta resolução, tais como EPR, HPLC e MS, este trabalho teve como objetivo analisar intermediários e produtos de tais processos e estudar mecanismos de reação de acetona triplete, produzida quimicamente pela decomposição térmica de 3,3,4,4-tetrametildioxetano (TMD) ou, enzimaticamente, pela oxidação aeróbica de isobutanal (IBAL), catalisada por peroxidase de raiz forte (HRP), na presença de aminoácidos e proteínas. Este trabalho demonstra a formação de um radical acetila, presumidamente formado da clivagem α de acetona triplete, e um radical terciário centrado em carbono, formado pela abstração de hidrogênio do IBAL. Resultados de espectrometria de massas demonstraram a formação de três diferentes adutos entre o radical terciário de IBAL, com L-Trp. Aventou-se que um dos produtos era resultante de alteração no nitrogênio e os outros no carbono 3, ambos no anel indólico. Observou-se também a formação de produto correspondente ao radical hidroxipropionil com L-Trp. Também se observaram dois produtos de L-Trp típicos de sua oxidação por oxigênio singlete, a formilquinurenina, e um aduto de função álcool. A formação de base de Schiff entre o L-Trp estudado e o IBAL também é apresentada. A formação de oxigênio singlete foi evidenciada indiretamente via EPR utilizando o spin trap TEMP e através de um captador de adição-9,10 (tipo Diels-Alder) em derivado de antraceno. Foram realizados, também, experimentos com precursores de melanina e demonstrou-se a formação de espécies excitadas do ácido 5,6-dihidroxi-indol-2-carboxílico (DHICA) que poderiam explicar a formação de produtos de DNA tipicamente resultantes de reação fotoquímica, mas na ausência de luz. Tais resultados corroboram a reação de espécies tripletes com biomoléculas, possibilitando a compreensão de número significativo de eventos biológicos conhecidos, mas teoricamente \"proibidos\" de ocorrer no estado fundamental, em tecidos não expostos à luz / Electronically excited triplet carbonyl species formed as products of some biochemical reactions, such as lipid peroxidation, behave similarly as alcoxyl radicals. It has long been hypothesized that such excited species could have a role in some diseases (\"carbonyl stress\"). Research of chemical lesions of triplet carbonyls over biomolecules and their biological response took place principally from 1970 to 1990 (the \"photochemistry without light\" hypothesis proposed by Profs. G. Cilento, IQUSP, and Emil H. White, Johns Hopkins University), but it suffered from the lack of required instrumentation, and just few cases of photo(bio)chemistry without light were confirmed. The aim of this work, using high resolution techniques (EPR, HPLC, and MS), is to analyze the reaction products of excited triplet acetone with aminoacid and protein targets. Triplet acetone was produced from the thermal decomposition of 3,3,4,4-tetramethyldioxetane (TMD) or from the aerobic oxidation of isobutanal (IBAL) catalyzed by horseradish peroxidase (HRP). We revealed the generation of acetyl radical, putatively originated from α-cleavage of triplet acetone, and a carbon-centered tertiary radical, proposed as an IBAL radical formed by hydrogen abstraction from IBAL. Mass spectrometry showed production of three adducts from the reaction of IBAL radical with L-Trp, one of them at the nitrogen 1 and the other two at carbon 3 from the amino acid indole ring. Two adducts with m/z correspondent to the reaction between L-Trp (at carbon 3) and a hydroxypropionyl radical, and two products typically formed from singlet oxygen (formylkynurenine and an alcohol L-Trp adduct) were also observed. A Schiff base between L-Trp and IBAL was also observed. Singlet oxygen production from triplet-triplet energy transfer from excited acetone to ground state molecular oxygen was indirectly showed by EPR spin trapping with TEMP, and by MS using the anthracene derivative EAS to trap (9,10-cycloaddition) of 18O2 (1Δg). Other data reported here include the demonstration of excited species formed when DHICA, a melanin precursor, was oxidized. These results might explain the generation of DNA photochemical products (thymine dimers) in the absence of light. Altogether, we collect strong and significant evidence in this thesis that corroborate the reactivity of triplet excited species with a couple of biomolecules, providing insights over some reportedly known molecular events that are theoretically forbidden to occur in the ground state but happen in tissues non-exposed to light
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Análise da acetona em ar exalado: metodologia para estudo em pacientes hospitalizados / Breath Acetone Analysis: Methodology for studying hospitalized pacientsBatista, Guilherme Lopes 05 November 2010 (has links)
A dissertação se situa no campo de pesquisa de métodos não invasivos de análise clínica, mais especificamente, de prognóstico da gravidade de insuficiência cardíaca, IC, com base em bioindicador presente no ar exalado por pacientes, em estudo no IncorHCFMUSP. O bioindicador mais relevante encontrado por GC-MS foi a acetona (propanona). Para a coleta do ar exalado desenvolveu-se dispositivo que compreende frasco borbulhador (impinger) com difusor, contendo 5 mL de água, imerso em banho de gelo e acoplado a saco plástico para definição de volume amostrado (7,6 L). A preservação de amostras deu-se por congelamento a -80ºC. Para a determinação do analito, escolheu-se método espectrofotométrico (474 nm) baseado na reação da acetona com salicilaldeído em meio básico, apresentando limite de detecção de 0,3 mg/L em fase líquida e 0,3 µg/L em ar exalado. Foram realizados estudos de eficiência de coleta por geração de atmosfera controlada. Resultados iniciais obtidos com amostras coletadas de pacientes portadores de IC pelos colaboradores do Incor indicam a potencialidade do bioindicador e dos equipamentos e métodos desenvolvidos para acetona nesta dissertação. / The dissertation fits in the research field of noninvasive clinical analysis, more specifically, the prognosis of the severity of heart failure, HF, based on a biomarker found in the air exhaled by patients, in a study at InCor-HCFMUSP. The most relevant biomarker found by GC-MS was acetone (propanone). For the breath collection a device was developed which comprises a scrubber flask (impinger) with diffuser, containing 5 mL of water, immersed in an ice bath and attached to a plastic bag for delimitation of the sample volume (7,6 L). For the determination of acetone a spectrometric method (474 nm) was chosen based on a reaction of acetone with salicylaldehyde in alkaline medium, with detection limits of 0,3 mg/L in liquid phase and 0,3 µg/L in breath. Preliminary studies made with samples collected from HF patients by the co-workers from InCor indicate the potential of the identified biomarker and the suitability of the equipment and methods developed in this dissertation for its analysis.
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