Global ETD Search

161	On the nature of different Fe sites on Fe-containing micro and mesoporous materials and their catalytic role in the abatement of nitrogen oxides from exhaust gases Matam, Santhosh Kumar 21 October 2005 (has links) Gegenstand der Untersuchungen war die Reduktion von Stickoxiden (NOx und N2O) an verschiedenartig präparierten Eisenkatalysatoren (Fe-MF, Fe-beta, Fe-SBA-15). Die Katalysatoren wurden nach Synthese, Kalzinierung und Katalyse mittels EPR und UV/VIS-DRS charakterisiert, und darüber hinaus auch in-situ während des Kalzinierens. Isolierte Eisenspezies aggregieren im Verlauf der Kalzinierung bei 873 K. Sowohl höhere Heizraten beim Kalziniervorgang, als auch ein höheres Si/Al-Verhältnis des Trägermaterials verstärken die Neigung zur Aggregatbildung leicht. Die Verwendung des Katalysators für die SCR von NO führt zu weiterem Wachstum und zur Restrukturierung der FexOy-Cluster. Die Eisenkatalysatoren wurden weiterhin mittels in-situ Methoden (EPR, UV/VIS-DRS, FTIR) untersucht während der SCR von NO durch NH3 und Isobutan, der SCR von N2O mit CO, und im Strom der entsprechenden reinen Eduktgase. Die Ergebnisse korrelieren mit dem katalytischen Verhalten der Materialien. Verschiedene Fe3+-Spezies, welche sich durch ein unterschiedliches Redoxverhalten auszeichnen, wurden identifiziert. UV/VIS-Messungen erlauben die Schlußfolgerung, daß isolierte, oktaedrisch koordinierte Fe3+?Spezies leichter zu reduzieren sind als tetradrisch koordinierte. Im Gegensatz zu isoliertem Fe3+ lassen sich FexOx-Cluster leichter oxidieren als reduzieren, und verbleiben daher unter Reaktionsbedingungen trivalent. Durch ihr hohes Oxidationspotential kommt es, vor allem für die Reaktion mit Isobutan, zur unerwünschten Totaloxidation des Reduktanden. Der Anteil isolierter Fe3+ Spezies korreliert mit der Aktivität der Katalysatoren für die SCR von NO und N2O. Weiterhin hängt zumindest für die Reaktion zwischen N2O und CO der Reaktionsmechanismus von der Art der vorliegenden Eisenspezies ab: an isolierten Plätzen erfolgt die Reduktion des N2O an dem an Fe3+ gebundenen CO. An FexOy-Clustern hingegen läuft die Reaktion als Redoxprozeß (Fe3+ / Fe2+) unter Bildung eines radikalischen Intermediates O-. Der Einfluß der Porengeometrie des Trägermaterials auf die katalytische Aktivität wurde an Katalysatoren mit ähnlichem Eisengehalt und ähnlicher Art und Verteilung der Eisenspezies studiert (Fe-MFI, Fe-SBA-15). Die drastisch höhere Aktivität von Fe-MFI belegt, daß die Lokalisierung der aktiven Komponente in einer Pore mit passender Geometrie (Größe und Struktur) essentiell für die katalytischen Eigenschaften ist. Als weitere, die Aktivität stark beeinflussen Größe, wurde für die Reaktion von NO mit Ammoniak und auch mit Isobutan die Azidität identifiziert, die jedoch für die katalytische Zersetzung oder Reduktion mit N2O keine Rolle spielt. / The reduction of nitrogen oxides (NOx and N2O) was investigated over Fe-catalysts (Fe-MFI, Fe-beta and Fe-SBA-15) which were prepared by different methods have been analyzed by EPR and UV/VIS-DRS ex situ after synthesis, calcination and use in catalysis as well as in situ during calcination. It was found that aggregated species are formed at the expense of isolated Fe species upon calcination at 873 K, and that aggregate formation is slightly favored by calcination with higher heating rates as well as by high Si/Al ratio of the support. Use in SCR of NO leads to further growth and restructuring of FexOy clusters. These Fe-catalysts were studied by in situ EPR, in situ UV/VIS-DRS and in situ FT-IR spectroscopy during SCR of NO with NH3 or isobutane and during SCR of N2O with CO as well as during interaction with single feed components. The results were related to the catalytic behaviour. Different types of isolated Fe3+ sites with different reducibility were identified. Based on FT-IR results which revealed that NO reacts preferably with trivalent Fe, it is concluded that Fe3+ ions reduced under reaction conditions to Fe2+ do probably not contribute to catalytic activity. In general, the degree of steady-state Fe site reduction during NH3-SCR is markedly lower than during isobutane-SCR. This might be the reason for the lower activity of Fe-catalysts in the latter reaction. UV/VIS-DRS results suggest that isolated Fe3+ in octahedral coordination is easier reduced than tetrahedral Fe3+. In contrast to isolated Fe3+ species, FexOy clusters are much faster reoxidized than reduced and, thus, remain essentially trivalent under reaction conditions. Due to their higher oxidation potential, they cause undesired total oxidation of the reductant being much more severe in the case of isobutane. A correlation was found between the fraction of isolated Fe+3 sites in the catalysts and their activity for SCR of NO and N2O. The reaction mechanism of SCR of N2O with CO is Fe site dependent. Over isolated Fe sites, the reduction of N2O occurs via coordinated CO species on Fe3+ sites. The reaction over FexOy sites proceeds via a redox Fe3+/Fe2+ process with intermediate formation of O- radicals. The effect of pore geometry of the support on the catalytic activity was studied by comparing catalytic performance of Fe-MFI and Fe-SBA-15 which contain similar iron content and show similar nature and distribution of Fe species as evidenced by UV/VIS-DRS and EPR. Fe-MFI revealed to be much more active than Fe-SBA-15 in all reactions studied. This clearly illustrates that the confinement of the iron species in pores of suitable geometry (structure and size) is essential to originate their remarkable catalytic properties. Acidity is essential for SCR of NO with NH3 or isobutane but it is not mandatory for direct decomposition or SCR of N2O. Fe-katalysatoren DeNOx N2O zersetzung N2O reduktion In situ EPR In situ UV/VIS-DRS In situ FT-IR Fe-spezies Aktiv zentren Mechanismus Fe-catalysts DeNOx N2O decomposition N2O reduction In situ EPR In situ UV/VIS-DRS In situ FT-IR Fe species Active sites Mechanism 30 Chemie ddc:540
162	A new rheological polymer based on boron siloxane cross-linked by isocyanate groups Shmelin, George January 2012 (has links) The research described in this thesis originated from an idea to develop new body protection for the sport of fencing. The ultimate goal is to develop body armour which would be flexible, wearable, washable, light and breathable, offer protection from injuries and cover the entire body of a sportsman. A new material which exhibits shear thickening behaviour has been specially developed for this purpose in the process of this investigation. The material was designed and synthesised as a soft polymeric system which is flexible, chemically stable and able to increase the value of its modulus of elasticity upon impact at a high strain rate, while remaining in its soft gel-like elastomeric state when low strain rate deformation is applied. The polymeric system that has been developed is based on interpenetrating polymeric networks (IPN) of immiscible polyurethane/urea-ester/ether and poly(boron)n(dimethylsiloxane)m (where on average m ≈ 16 n). In addition, as the polydimethylsilane (PDMS) based polymeric system strongly tends to phase separation, the siloxane polymeric network was chemically cross-linked to the polyurethane polymeric network through polyurethane chemical cross-link-bridges. In order to introduce polyurethane cross-links to a siloxane-based polymeric network, some of the attached methyl groups in the PDMS polymeric backbone were substituted by ε-pentanol groups. The resulting polymeric system combines properties of an alternating copolymer with IPN. The actual substitution of the methyl groups of PDMS into alternating ε-pentanol groups was performed by Grignard reaction of trifunctional chlorosilane monomers, magnesium and 1,5-dibromopentane. Chemical analytical techniques like FT-IR, 13C NMR and 1H NMR spectroscopy were used to reveal the chemical structure of the synthesised polymeric network. The mechanical and dynamical properties of the obtained polymeric system were analysed by dynamic mechanical analysis (DMA). This part of the investigation indicated that the novel polymeric system exhibited shear thickening behaviour, but only at a narrow diapason of deformations (i.e., deformations between 2 to 3 % of the length of the sample). At this limited diapason of deformation an effective increase of the modulus of elasticity from 6 MPa (at lower frequencies, i.e., up to ≤6 Hz of the applied oscillating stress) to 65 MPa (at frequencies between 12.5 to 25 Hz) was obtained. However, no increase in the modulus of elasticity was recorded at deformations below 1.5 % or above 3.5 % of length of the sample at the same frequencies (0 to 25Hz) of the applied oscillating stress. 687
163	A comparison of the reactivity of different synthetic calcium carbonate minerals with arsenic oxyanions Mandal, Abhishek 14 January 2009 This study was conducted to determine how the structure and surface chemistry of bulk CaCO3 differs from that of nanometer-sized CaCO3 and then to determine rate, extent and mechanisms of As adsorption on various synthetic CaCO3 materials. Additionally, we sought to devise a chemical CaCO3 precipitate that approximates biogenic CaCO3. The bulk CaCO3 precipitation was performed by using a solution that was highly oversaturated so that large CaCO3 precipitates rapidly form. Two different methods were employed for the synthesis of nanometer size CaCO3 i) an in situ deposition technique and ii) an interfacial reaction (water in oil emulsion). Mineral characterization of all CaCO3 precipitates was done with Nitrogen Porosimetry (Brunauer Emmett Teller method), particle size analysis, X-ray diffraction and Fourier Transform Infrared/ Fourier Transform Raman spectroscopy. The principal objective of the research was to assess the overall reactivity of As(III) and As(V) with different synthetic CaCO3 minerals. This was accomplished by i) running adsorption isotherms (varying As concentration), ii) measuring pH envelopes (varying pH at a fixed concentration) and iii) kinetic experiments (varying reaction time). Also, electrophoretic mobility experiments were performed in the presence of As(III) and As(V), and these studies revealed that As(III) forms stronger inner-sphere complexes with CaCO3 than As(V). Also, it was found that nanometer-sized CaCO3 prepared via deposition formed stronger inner-sphere complexes with As oxyanions (q = 5.26 µmol/m2) compared to either nano-sized CaCO3 from interfacial reactions (q = 4.51 µmol/m2) or bulk CaCO3 (q = 4.39 µmol/m2).<p> The PEG-based nano CaCO3 prepared by an in-situ deposition technique presents a novel and readily available synthesis route that can be used as proxy for the biogenic CaCO3 known to be present in many different environmental conditions. The results of this study suggest that CaCO3 can be used as a sorbent for As in groundwater. Biomineralization Biomimetic synthesis Bulk and Nanosized Calcium Carbonate As(III) and As(V) oxyanions Nitrogen Porosimetry Particle Size Analysis XRD FT-IR Electrophoretic Mobility FT-Raman Adsorption Isotherm pH envelope Kinetic Study Speciation Mobility and Toxicity of Arsenic
164	A comparison of the reactivity of different synthetic calcium carbonate minerals with arsenic oxyanions Mandal, Abhishek 14 January 2009 (has links) This study was conducted to determine how the structure and surface chemistry of bulk CaCO3 differs from that of nanometer-sized CaCO3 and then to determine rate, extent and mechanisms of As adsorption on various synthetic CaCO3 materials. Additionally, we sought to devise a chemical CaCO3 precipitate that approximates biogenic CaCO3. The bulk CaCO3 precipitation was performed by using a solution that was highly oversaturated so that large CaCO3 precipitates rapidly form. Two different methods were employed for the synthesis of nanometer size CaCO3 i) an in situ deposition technique and ii) an interfacial reaction (water in oil emulsion). Mineral characterization of all CaCO3 precipitates was done with Nitrogen Porosimetry (Brunauer Emmett Teller method), particle size analysis, X-ray diffraction and Fourier Transform Infrared/ Fourier Transform Raman spectroscopy. The principal objective of the research was to assess the overall reactivity of As(III) and As(V) with different synthetic CaCO3 minerals. This was accomplished by i) running adsorption isotherms (varying As concentration), ii) measuring pH envelopes (varying pH at a fixed concentration) and iii) kinetic experiments (varying reaction time). Also, electrophoretic mobility experiments were performed in the presence of As(III) and As(V), and these studies revealed that As(III) forms stronger inner-sphere complexes with CaCO3 than As(V). Also, it was found that nanometer-sized CaCO3 prepared via deposition formed stronger inner-sphere complexes with As oxyanions (q = 5.26 µmol/m2) compared to either nano-sized CaCO3 from interfacial reactions (q = 4.51 µmol/m2) or bulk CaCO3 (q = 4.39 µmol/m2).<p> The PEG-based nano CaCO3 prepared by an in-situ deposition technique presents a novel and readily available synthesis route that can be used as proxy for the biogenic CaCO3 known to be present in many different environmental conditions. The results of this study suggest that CaCO3 can be used as a sorbent for As in groundwater. Biomineralization Biomimetic synthesis Bulk and Nanosized Calcium Carbonate As(III) and As(V) oxyanions Nitrogen Porosimetry Particle Size Analysis XRD FT-IR Electrophoretic Mobility FT-Raman Adsorption Isotherm pH envelope Kinetic Study Speciation Mobility and Toxicity of Arsenic
165	Charge Transport through Organized Organic Assemblies in Confined Geometries Schuckman, Amanda Eileen 2011 May 1900 (has links) Organic molecules such as porphyrins and alkanethiols are currently being investigated for applications such as sensors, light-emitting diodes and single electron transistors. Porphyrins are stable, highly conjugated compounds and the choice of metal ion and substituents bound to the macrocycle as well as other effects such as chemical surrounding and cluster size modulate the electronic and photonic properties of the molecule. Porphyrins and their derivatives are relatively non-toxic and their very rich photo- and electro-chemistry, and small HOMO-LUMO gaps make them outstanding candidates for use in molecularly-enhanced electronic applications. For these studies, self-assembled tri-pyridyl porphyrin thiol derivatives have been fully characterized on Au(111) surfaces. A variety of surface characterization techniques such as Atomic Force Microscopy (AFM), Scanning Tunneling Microscopy (STM), FT-IR spectroscopy and X-ray photoelectron spectroscopy (XPS) have been implemented in order to obtain information regarding the attachment orientation based on the angle and physical height of the molecule, conductivity which is determined based on the apparent height and current-voltage (I-V) measurements of the molecule, conductance switching behavior due to conformational or other effects as well as the stability of the molecular ensembles. Specifically, the transport properties of free base and zinc coordinated tri-pyridyl porphyrin thiol molecular islands inserted into a dodecanethiol matrix on Au(111) were investigated using STM and cross-wire inelastic electron tunneling spectroscopy (IETS). The zinc porphyrin thiol islands observed by STM exhibited reversible bias induced switching at high surface coverage due to the formation of Coulomb islands of ca. 10 nm diameter driven by porphyrin aggregation. Low temperature measurements (~ 4 K) from crossed-wire junctions verified the appearance of a Coulomb staircase and blockade which was not observed for single molecules of this compound or for the analogous free base. Scanning probe lithography via nanografting has been implemented to directly assemble nanoscale patterns of zinc porphyrin thiols and 16-mercapotohexadecanoic acid on Au surfaces. Matrix effects during nanopatterning including solvent and background SAMs have been investigated and ultimately ~ 10 nm islands of zinc porphyrins have been fabricated which is the optimal size for the observed switching effect. Nanoscale materials and devices nanofabrication chemistry of surfaces molecular electronics charge transport porphyrin alkanethiol self-assembled monolayers (SAMs) Au surfaces scanning probe lithography nanografting STM AFM XPS FT-IR UV-Vis current-voltage (I-V) spectroscopy IETS DFT calculations
166	Comparison between Hybrid Moving Bed Membrane Bioreactor and Conventional Membrane Bioreactor Processes in Municipal Wastewater Treatment Rollings-Scattergood, Sasha Michael 08 December 2011 (has links) A conventional membrane bioreactor (MBR) and two moving bed bioreactors coupled with ultrafiltration membrane filtration were operated for close to six months to investigate biological nutrient removal and potential fouling inducing parameter mitigation. Unique to one of the moving bed membrane bioreactors (MBMBR) was a newly designed media that incorporated a hydrodynamic exterior carrier with a highly porous interior packing. Preliminary investigation indicates that nitrogen compounds were superiorly removed in the two MBMBRs when compared with the MBR. This is a result of denitrification processes occurring in anoxic micro-zones found within the depths of the biofilm affixed to media. Fouling propensity was found to be increased by over four times in the MBMBR systems as compared to the MBR. Mixed liquor, permeate and filtrate analysis, membrane fibre examination and permeability tests indicated that colloidal organic carbon, as well as soluble microbial products were the dominant fouling inducing compounds. / Manuscript format / The Natural Sciences and Engineering Research Council of Canada moving bed bioreactor MBBR moving bed membrane bioreactor MBMBR biofilm membrane bioreactor BF-MBR membrane bioreactor MBR nutrient removal wastewater biofilm carrier FT-IR CLSM Fourier transform infrared confocal laser scanning microscopy fouling
167	Experimental simulation of Titan's aerosols formation Gautier, Thomas 20 September 2013 (has links) (PDF) Cette thèse traite de l'étude des mécanismes de formation et de la composition d'équivalents d'aérosols de Titan, appelés tholins. L'étude de la phase gazeuse a permis d'identifier différents précurseurs d'aérosols, en particulier des espèces azotées telles que les imines et les nitriles, qui pourraient être un premier pas dans la transition gaz-solide. L'étude des propriétés infrarouge des tholins permet de fournir la dépendance en fonction de la longueur d'onde (du lointain au moyen infrarouge) de l'absorption des tholins. L'étude de la composition chimique des aérosols a permis de remonter à leur structure polymérique des tholins et de détecter la présence d'azote en grande quantité dans leur structure. La dernière partie de cette thèse comporte également une comparaison entre la chimie induite par différentes sources d'énergie De manière générale, cette thèse propose lorsqu'elle est possible une comparaison entre les données obtenues en laboratoire et les observations de Titan. Titan Aerosols Planétologie Astrochimie Tholins FT-IR Orbitrap Mass spectrometry
168	Vibrational spectroscopy of keratin fibres : A forensic approach Panayiotou, Helen January 2004 (has links) Human hair profiling is an integral part of a forensic investigation but it is one of the most technically difficult subjects in forensic science. This thesis describes the research and development of a novel approach for the rapid identification of unknown human and other related keratin fibres found at a crime scene. The work presented here is developed systematically and considers sample collection, sample preparation, analysis and interpretation of spectral data for the profiling of hair fibres encountered in criminal cases. Spectral comparison of fibres was facilitated with the use of chemometrics methods such as PCA, SIMCA and Fuzzy Clustering, and the less common approach of multi-criteria decision making methodology (MCDM). The aim of the thesis was to investigate the potential of some vibrational spectroscopy techniques for matching and discrimination of single keratin hair fibres in the context of forensic evidence. The first objective (chapter 3) of the thesis was to evaluate the use of Raman and FT-IR micro-spectroscopy techniques for the forensic sampling of hair fibres and to propose the preferred technique for future forensic hair comparisons. The selection of the preferred technique was based on criteria such as spectral quality, ease of use, rapid analysis and universal application to different hair samples. FT-IR micro-spectroscopy was found to be the most appropriate technique for hair analysis because it enabled the rapid collection of spectra from a wide variety of hair fibres. Raman micro-spectroscopy, on the other hand, was hindered with fluorescence problems and did not allow the collection of spectra from pigmented fibres. This objective has therefore shown that FT-IR micro-spectroscopy is the preferable spectroscopic technique for forensic analysis of hair fibres, whilst Raman spectroscopy is the least preferred. The second objective (chapter 3) was to investigate, through a series of experiments, the effect of chemical treatment on the micro-environment of human hair fibres. The effect of bleaching agents on the hair fibres was studied with some detail at different treatment times and the results indicate a significant change in the chemical environment of the secondary structure of the hair fibre along with changes in the C-C backbone structure. One of the most important outcomes of this research was the behaviour of the fÑ-helix during chemical treatment. The hydrogen bonding in the fÑ-helix provides for the stable structure of the fibre and therefore any disruption to the fÑ-helix will inevitably damage the molecular structure of the fibre. The results highlighted the behaviour of the fÑ-helix, which undergoes a significant decrease in content during oxidation, and is partly converted to a random-coil structure, whilst the fÒ-sheet component of the secondary structure remains unaffected. The reported investigations show that the combination of FT-IR and Raman micro-spectroscopy can provide an insight and understanding into the complex chemical properties and reactions within a treated hair fibre. Importantly, this work demonstrates that with the aid of chemometrics, it is possible to investigate simultaneously FT-IR and Raman micro-spectroscopic information from oxidised hair fibres collected from one subject and treated at different times. The discrimination and matching of hair fibres on the basis of treatment has potential forensic applications. The third objective (chapter 4) attempted to expand the forensic application of FT-IR micro-spectroscopy to other keratin fibres. Animal fibres are commonly encountered in crime scenes and it thus becomes important to establish the origin of those fibres. The aim of this work was to establish the forensic applications of FT-IR micro-spectroscopy to animal fibres and to investigate any fundamental molecular differences between these fibres. The results established a discrimination between fibres consisting predominantly of fÑ-helix and those containing mainly a fÒ-sheet structure. More importantly, it was demonstrated through curve-fitting and chemometrics, that each keratin fibre contains a characteristic secondary structure arrangement. The work presented here is the first detailed FT-IR micro-spectroscopic study, utilising chemometrics as well as MCDM methods, for a wide range of keratin fibres, which are commonly, found as forensic evidence. Furthermore, it was demonstrated with the aid of the rank ordering MCDM methods PROMETHEE and GAIA, that it is possible to rank and discriminate keratin fibres according to their molecular characteristics obtained from direct measurements together with information sourced from the literature. The final objective (chapter 5) of the thesis was to propose an alternative method for the discrimination and matching of single scalp human hair fibres through the use of FT-IR micro-spectroscopy and chemometrics. The work successfully demonstrated, through a number of case scenarios, the application of the technique for the identification of variables such as gender and race for an unknown single hair fibre. In addition, it was also illustrated that known hair fibres (from the suspect or victim) can be readily matched to the unknown hair fibres found at the crime scene. This is the first time that a substantial, systematic FT-IR study of forensic hair identification has been presented. The research has shown that it is possible to model and correlate individual¡¦s characteristics with hair properties at molecular level with the use of chemometrics methods. A number of different, important forensic variables of immediate use to police in a crime scene investigation such as gender, race, treatment, black and white hair fibres were investigated. Blind samples were successfully applied both to validate available experimental data and extend the current database of experimental determinations. Protocols were posed for the application of this methodology in the future. The proposed FT-IR methodology presented in this thesis has provided an alternative approach to the characterisation of single scalp human hair fibres. The technique enables the rapid collection of spectra, followed by the objective analytical capabilities of chemometrics to successfully discriminate animal fibres, human hair fibres from different sources, treated from untreated hair fibres, as well as black and white hair fibres, on the basis of their molecular structure. The results can be readily produced and explained in the courts of law. Although the proposed relatively fast FT-IR technique is not aimed at displacing the two slower existing methods of hair analysis, namely comparative optical microscopy and DNA analysis, it has given a new dimension to the characterisation of hair fibres at a molecular level, providing a powerful tool for forensic investigations. vibrational spectroscopy spectroscopy keratin fibres forensic evidence PCA SIMCA fuzzy clustering FT-IR micro-spectroscopy Raman spectroscopy forensic hair identification chemometrics DNA analysis.
169	Vlastnosti komplexů aminojílu a biologicky aktivních látek / Properties of aminoclay complexes and biologically active substances Dušek, Jakub January 2020 (has links) This paper builds on previous research of aminoclay complexes in undergraduate studies. Theoretical part deals with study of current problems of aminoclay complexes with bioactive substances and the choice of substances for complexing with aminoclay. The experimental part consists of preparation of aminoclay complexes with selected bioactive agents at various concentrations. Verification of binding of bioactive agents to the aminoclay matrix was performed by Elemental Analysis (EA) and Fourier-transform infrared spectroscopy (FT-IR). For finding of the bound amount of bioactive substance were used the Ultra Performance Liquid Chromatography (UPLC®) and analysis of the cytotoxic properties of the formed complexes by used by the MTT assay. The main motivation of this study is to create new complexes with improved characteristics that would replace existing forms of substances used in pharmaceutical and biomedical applications.
170	[en] INFLUENCE OF COPPER (0) AND COPPER (II) ON THE DEGRADATION OF CANOLA AND SUNFLOWER OILS SUBMITTED TO THERMAL STRESS / [pt] INFLUÊNCIA DO COBRE(0) E COBRE(II) SOBRE A DEGRADAÇÃO DE ÓLEOS DE CANOLA E DE GIRASSOL SUBMETIDOS A ESTRESSE TÉRMICO 09 November 2021 (has links) [pt] A qualidade dos óleos vegetais utilizados na produção de biocombustíveis está diretamente relacionada à qualidade do produto final. Como metais desempenham um papel significativo na oxidação do óleo vegetal, a sua presença é indesejável, mesmo em baixas concentrações. No presente trabalho, investigou se como a presença de cobre, em diferentes estados de oxidação, cobre(0) ou cobre(II), afeta a estabilidade dos óleos de canola e girassol, auxiliando, assim, na compreensão dos mecanismos de oxidação dos mesmos. Óxido cúprico ou cobre metálico foram adicionados a amostras de óleo gerando suspensões contendo um teor de cobre equivalente a 2000 mg kg 1. As amostras foram mantidas a 90 graus celsius durante catorze dias. Periodicamente, foram retiradas alíquotas, que foram avaliadas quanto à estabilidade oxidativa através da determinação do índice de acidez, índice de iodo, espectroscopias de absorção nas regiões do UV Vis e do infravermelho (FT IR), espectroscopia Raman e do teste Rancimat. Os resultados confirmam que o cobre (não importa a espécie) participa ativamente do processo de degradação dos óleos vegetais, sugerindo que as espécies de metal não apenas influenciam a taxa de oxidação, mas também a extensão dos processos de degradação. Os espectros FT IR das amostras derivadas do óleo de canola mostraram um aumento na razão (I2856/I1747)tx/(I2856/I1747)t0, ou seja, uma diminuição dos grupos éster nas amostras de óleo contaminado com cobre. No entanto, não ocorreram alterações nas bandas com máximo em 1120 e 1098 cm 1, indicando que este metal atua como um catalisador no processo de hidrólise das ligações éster. Além disso, as razões (I2856/I3009)tx/(I2856/I3009)t0 e (I2856/I3010)tx/(I2856/I3010)t0 medidas por espectroscopia no FT IR para o óleo de canola e para o óleo de girassol, respectivamente, e a razão (I2856/I3012)tx/(I2856/I3012)t0 medida por espectroscopia Raman apresentaram um aumento mais pronunciado nas amostras contendo cobre. Contudo, os resultados obtidos sugerem que, durante a oxidação dos triglicerídeos, não ocorreu a quebra de ligações olefínicas, pois, embora tenha sido observado tanto por FT IR como por Raman que a banda relacionada ao v(C-H)cis diminuiu com o progresso da oxidação, não foi verificada significativa diminuição do índice de iodo, indicando que uma grande parte da oxidação nos óleos contaminados com cobre não envolveu diretamente a perda de duplas ligações, e sim a isomerização das duplas ligações cis direcionando a formação de produtos contendo ligações trans. Os dados deste trabalho indicam que o estado de oxidação +2 exerce um maior efeito catalítico do que o cobre na forma de partículas metálicas, uma vez que a diminuição no tempo de indução, assim como o aumento na formação de produtos secundários derivados de oxidação, acompanhada pela medição da absorvância a 270 nm, foi mais pronunciada nas amostras contaminadas com cobre(II). A extensão da isomerização das duplas ligações, acompanhada por FT IR e espectroscopia Raman, apontam neste mesmo sentido. Além disso, a influência de um antioxidante natural, curcumina, também foi avaliada. Verificou se que a sua adição às amostras de óleo contendo cobre(II) elevou a estabilidade frente aos ensaios realizados. / [en] The quality of vegetable oils used in biofuel production is directly related to the quality of the final product. As metals play a significant role in vegetable oil oxidation and degradation, their presence is undesirable, even at low concentrations. The present study investigated how the presence of copper, in different oxidation states, copper(0) or copper(II), affects the stability of canola and sunflower oil, thus aiding in the understanding of oil oxidation mechanisms. Cupric oxide or metallic copper were added to the oil samples generating suspensions containing overall copper amounts equivalent to 2000 mg kg 1. The samples were maintained at 90 celsius degrees for fourteen days. Aliquots were taken periodically and evaluated with regard to oxidative stability, by determining the acid value, iodine value, by absorption UV Vis and Infrared (FT IR) spectroscopy, Raman spectroscopy and the Rancimat test. The results confirm that copper, no matter in what oxidation state, participates actively in vegetable oil degradation, suggesting that the metal species do not only influence the oxidation rate, but also the extent of the degradation processes. The FT IR spectra of samples derived from copper contaminated canola oil showed an increase in the (I2856/I1747)tx/(I2856/I1747)t0 ratio, i.e., a decrease of the ester groups. However, no changes in the bands with maximums at 1120 and 1098 cm 1 were observed, indicating that this metal acts as a catalyst in the hydrolysis process of ester bonds. Furthermore, the (I2856/I3009)tx/(I2856/I3009)t0 and (I2856/I3010)tx/(I2856/I3010)t0 ratios measured by FT IR spectroscopy, for canola and sunflower oil, respectively, and the (I2856/I3012)tx/(I2856 /I3012)t0 ratio measured by Raman spectroscopy showed a more pronounced increase in the copper containing samples. However, the results also suggest that olefinic bonds did not rupture during triglyceride oxidation, since, despite the fact that a decrease in the band related to cis C-H vibration was observed by both FT IR and Raman during the oxidation progress, no reductions in the iodine value were observed, indicating that the majority of the oxidation in the copper containing oils did not involve the loss of double bonds, but the isomerization of cis double bonds, directing the formation of products containing trans bonds. The results reported in this study indicate that copper in the (II) oxidation state exerts a greater catalytic effect than Cu in the form of metal particles, since the decrease in the induction time, as well as the increase in the production of secondary oxidation products, verified by measuring the absorption intensity at 270 nm, was more pronounced in samples contaminated with copper(II). The influence of a natural antioxidant, curcumin, on the oxidation stability of vegetable oils was also evaluated, and its addition to the oil samples containing copper(II) increased oil stability. [pt] COBRE [pt] ESPECTROSCOPIA NO FTIR [pt] OLEO DE GIRASSOL [pt] OLEO DE CANOLA [pt] ESTABILIDADE OXIDATIVA [pt] DEGRADACAO TERMICA [pt] RAMAN [en] COPPER [en] SPECTROSCOPY FT IR [en] SUNFLOWER OIL [en] CANOLA OIL [en] OXIDATIVE STABILITY [en] THERMAL DEGRADATION [en] RAMAN

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