Global ETD Search

11	Microwave-Assisted Hydrothermal Synthesis of Fine Grained La<sub>0.77</sub>Sr<sub>0.20</sub>Al<sub>0.90</sub>Mn<sub>0.10</sub>O<sub>3-δ</sub> Hoy, Julia Richardson 25 August 2010 (has links) No description available. Chemistry Microwave-assisted synthesis Perovskite Grain Boundary Sliding
12	Syntheses, characterisation and applications of ionic liquids to recover materials from WEEE Faivre, Romain January 2010 (has links) The recycling of materials from waste electrical and electronic equipment (WEEE) is of great concern today, as increasing public awareness and the implementation of recent legislations have created a situation where industries need to 1) comply with the environmental regulations and 2) fulfil producers’ responsibility initiatives. In this context, the work described in this thesis investigates the applications of new leaching solvents, the ionic liquids (ILs), to recycle two materials, copper and decabromodiphenylether (DBDE), which are common in WEEE. A total of 18 ILs, methylimidazolium (MIM) and methylpyridinium (MPy) based, were prepared using a microwave-assisted method. These ILs were selected to allow characterisation of performance with respect to three parameters: hydrophobicity of the cation, polarity of a terminal functional group in the cation side chain, and the type of aromatic ring, in order to identify their effects on the solubility and extraction processes. All ILs were successfully characterised by IR spectroscopy, mass spectrometry and NMR. Hydrophobicity was measured by HPLC, and the retention factors compared to logP values predicted from Molinspiration. High correlation (>88%) was observed, which indicated that the predicted logP values were representative of the real hydrophobicity of the cation. Copper metal was not significantly dissolved in any of the ILs, and performance was therefore assessed with the dissolution of CuO. The dissolution tests were conducted at 70°C for ten minutes and the resultant solutions analysed for Cu by using atomic absorption spectroscopy. A short side chain and the presence of a strongly polarised functional group at the terminal position were required to achieve maximum dissolution. Furthermore, the short chain methylimidazolium system was better than methylpyridinium for dissolving CuO. Consequently, 1-(2-cyanoethyl)-1-methylimidazloium bromide was found to be the best solvent and dissolved 75.5 mg of Cu in one g of IL. High impact polystyrene (HIPS), containing 4.4% of DBDE, was prepared in order to test the extraction abilities of various non-substituted ILs. The extraction of DBDE from the polymer was conducted at 90°C for 2 h 45 min. The results indicated that high hydrophobicity was required to achieve the maximum extraction of DBDE, however, the percentage extraction remained very low (<10%). The low extraction was attributed to the fact that only the DBDE present on the outer surface of the polymer was extracted during the process. In spite of being more hydrophobic, MPy-based systems did not dissolve as much as MIM-based systems because they were more viscous. The high viscosity value actually hindered the diffusion process and ultimately reduced the extraction of DBDE. The effects of different factors on the extraction process were evaluated and the maximum extraction was achieved by using 1-octyl-3-methylimidazolium bromide at 110 °C. The results described in this thesis have identified and quantified the link between the structures of the ILs and extraction efficiencies in relation to their potential use for recovery of CuO and DBDE from WEEE. The recommendations for future work have also been identified. The results obtained in this work, however, have contributed to increase the knowledge about the properties of ILs and can be used in future research to design a large scale recycling process. 628
13	Microwave assisted moulding of starch-based foams Zhou, Jiang January 2004 (has links) This thesis reports a fundamental study on microwave assisted moulding (MAM), a novel technology where expandable starch based pellets made from extrusion are expanded within a mould cavity into blocks using microwave heating. Foamability or degree of expansion of starch-based pellets during microwave heating was studied comprehensively in terms of: the variation of raw natural materials, the extrusion conditions, the additives and the preconditioning of pellets before foaming. The expansion behaviour, foamed cell structures and mechanical properties of expanded pellets were characterized together with the characterization of microstructure of the extrudate materials and physical properties. Characteristics in microwave assisted moulding of the expandable pellets were then studied in terms of: the interfacial bonding and fusion between foamed pellets, the achievement of uniform heating through a moulded block, the loading of pellets and mould filling during foaming. It has been found that the degree of free expansion during microwave heating of the starch-based pellets is dependent on the degree of cook of starch during extrusion, the better the distructurization of the native starch granules, the higher the foamability in microwave heating. The maximum expansion ratio achieved in this work is 14, corresponding a foam porosity of 93%. Hydrophilic additives such as PYA and glycerol have adverse effect on the foamability due to combination effects of the melting point of the materials, degree of cook of starch in the pellets and water molecular mobility during foaming. Nucleation agents such as talc powder can refine cell structure of the foams and enhance elastic modulus, strength and energy absorption during compression. Addition of salts enhances microwave heating rate, expansion ratio and plasticization of the foam. Foamed blocks can be made using the MAM technology by adequate mould material, pre-treatment of the pellets, and control of initial loading in the mould cavity. This study paved the way for further development of the MAM technology for moulding of starch-based foams. 660.294514
14	Designing Non-saccharide Heparin/Heparan Sulfate Mimics Raghuraman, Arjun 11 April 2008 (has links) Glycosaminoglycans (GAGs) are complex biopolymers that play important roles in inflammation, coagulation, angiogenesis, cell adhesion and viral invasion by interacting with several different proteins.1,2 Structurally, GAGs are built up of several different sulfated disaccharide units.3 Specific GAG sequences that uniquely recognize their cognate proteins exist. Such specificity typically arises from the binding of unique sulfation patterns on the linear GAG chain to highly electropositive protein domains. Thus, these highly charged, sulfated biopolymers potentially represent a new class of therapeutics. Yet, the major stumbling block to the development to these agents is their extremely complicated and tedious chemical synthesis. We hypothesized that replacing the saccharide skeleton with an equivalent non-saccharide and readily synthesized organic skeleton would usher in an era of new, GAG-based therapeutics. This challenge has been addressed on two fronts, computational design and chemical synthesis, by focusing on the heparin pentasaccharide-antithrombin system that represents an exhaustively studied model GAG-protein system. With respect to chemical synthesis, a microwave-based synthetic procedure that can rapidly introduce multiple sulfate groups on a poly-hydroxyl substrate within minutes was developed.4 Using this method, the synthesis of a previously designed activator (IAS5), which otherwise proved to be problematic, was successfully completed. Biochemical screening of IAS5 and its analogs revealed that these molecules could activate antithrombin up to 30-fold in comparison to the 300-fold activation by the heparin pentasaccharide. In an effort to develop more potent antithrombin activators, a new method to predict high affinity GAG sequences for a given GAG-binding protein based on combinatorial virtual-library screening was developed.5 This combinatorial virtual-library screening method was applied to a library of 24,576 non-saccharide, sulfated molecules that were created using the structure of IAS5 as a template. Thirty seven‘hits’ that had common structural features were identified from this study. Interestingly, all these ‘hits’ bind to antithrombin similarly and orient the 4 negative charges identical to the corresponding groups in the heparin pentasaccharide. The synthesis of selected targets is currently in progress and several synthetic steps have already been optimized. Virtual Screening Antithrombin activators Microwave-assisted organic synthesis Anticoagulants Glycosaminoglycans Chemicals and Drugs Medicine and Health Sciences
15	Síntese e caracterização de compósitos de NiO-YSZ-CeO2 com tratamento hidrotermal assistido por micro-ondas / Synthesis and caracterization of NiO-YSZ-CeO2 composites with microwave-assisted hydrothermal treatment Lucas Batochi Pinheiro 03 October 2013 (has links) Neste trabalho foi avaliado o efeito de um tratamento hidrotermal assistido por micro-ondas (HMO) nas propriedades estruturais, térmicas e elétricas de compósitos NiO-YSZ-CeO2 sintetizados pelo método de coprecipitação de hidróxidos. Curvas termogravimétricas e térmicas diferenciais simultâneas (TG/ATD) em conjunto com medidas de difração de raios X (DRX) mostraram que o tratamento HMO contribuiu para uma maior cristalização da fase hidróxido de níquel. A retração linear dos compactos durante o processo de sinterização foi observada por análise termomecânica (ATM) e os resultados obtidos indicaram uma maior sinterabilidade para as amostras submetidas ao tratamento HMO. Compactos cerâmicos foram sinterizados em forno convencional resistivo e micro-ondas. Estes compactos tiveram suas microestruturas analisadas por microscopia eletrônica de varredura (MEV) e propriedades elétricas investigadas por espectroscopia de impedância (EI). As imagens de MEV apresentaram homogeneidade das fases presentes e grãos com tamanho submicrométrico. As medidas de EI mostraram que as amostras tratadas em sistema hidrotermal assistido por micro-ondas, apresentaram aumento de condutividade elétrica para temperaturas acima de 500 ºC, independentemente do tipo de sinterização. / In the present work, it was evaluated the effects of a microwave-assisted hydrothermal (MWH) treatment on structural, thermal and electrical properties of NiO-YSZ-CeO2 composites synthesized by hydroxide coprecipitation method. Simultaneous thermogravimetry and differential thermal analysis (TG/DTA) in conjunction with x-ray diffraction (XRD) measurements showed that MWH treatment contributed to enhanced nickel hydroxide crystallization. The linear shrinkage of the ceramic compacts was observed by thermomechanical analysis (TMA) and the results indicated a higher sinterability for the samples MWH-treated. The compacts were sintered in a conventional resistive and in a microwave furnace. This sintered compacts had their microstructure analyzed by scanning electron microscopy (SEM) and electrical properties investigated by impedance spectroscopy (IS). The SEM images showed phase homogeneity and sub-micrometric grains with irregular shapes. The IS data revealed that the MWH-treated samples have a conductivity increase for temperatures above 500 ºC regardless the sintering process. coprecipitação espectroscopia de impedância hidrotermal assistido por micro-ondas SOFC coprecipitation impedance spectroscopy microwave-assisted hydrothermal SOFC
16	Síntese e caracterização de compósitos de NiO-YSZ-CeO2 com tratamento hidrotermal assistido por micro-ondas / Synthesis and caracterization of NiO-YSZ-CeO2 composites with microwave-assisted hydrothermal treatment Pinheiro, Lucas Batochi 03 October 2013 (has links) Neste trabalho foi avaliado o efeito de um tratamento hidrotermal assistido por micro-ondas (HMO) nas propriedades estruturais, térmicas e elétricas de compósitos NiO-YSZ-CeO2 sintetizados pelo método de coprecipitação de hidróxidos. Curvas termogravimétricas e térmicas diferenciais simultâneas (TG/ATD) em conjunto com medidas de difração de raios X (DRX) mostraram que o tratamento HMO contribuiu para uma maior cristalização da fase hidróxido de níquel. A retração linear dos compactos durante o processo de sinterização foi observada por análise termomecânica (ATM) e os resultados obtidos indicaram uma maior sinterabilidade para as amostras submetidas ao tratamento HMO. Compactos cerâmicos foram sinterizados em forno convencional resistivo e micro-ondas. Estes compactos tiveram suas microestruturas analisadas por microscopia eletrônica de varredura (MEV) e propriedades elétricas investigadas por espectroscopia de impedância (EI). As imagens de MEV apresentaram homogeneidade das fases presentes e grãos com tamanho submicrométrico. As medidas de EI mostraram que as amostras tratadas em sistema hidrotermal assistido por micro-ondas, apresentaram aumento de condutividade elétrica para temperaturas acima de 500 ºC, independentemente do tipo de sinterização. / In the present work, it was evaluated the effects of a microwave-assisted hydrothermal (MWH) treatment on structural, thermal and electrical properties of NiO-YSZ-CeO2 composites synthesized by hydroxide coprecipitation method. Simultaneous thermogravimetry and differential thermal analysis (TG/DTA) in conjunction with x-ray diffraction (XRD) measurements showed that MWH treatment contributed to enhanced nickel hydroxide crystallization. The linear shrinkage of the ceramic compacts was observed by thermomechanical analysis (TMA) and the results indicated a higher sinterability for the samples MWH-treated. The compacts were sintered in a conventional resistive and in a microwave furnace. This sintered compacts had their microstructure analyzed by scanning electron microscopy (SEM) and electrical properties investigated by impedance spectroscopy (IS). The SEM images showed phase homogeneity and sub-micrometric grains with irregular shapes. The IS data revealed that the MWH-treated samples have a conductivity increase for temperatures above 500 ºC regardless the sintering process. coprecipitação coprecipitation espectroscopia de impedância hidrotermal assistido por micro-ondas impedance spectroscopy microwave-assisted hydrothermal SOFC SOFC
17	Obtenção de óxido de nióbio nanoestruturado por método hidrotermal assistido por microondas e sua caracterização quanto à morfologia, cristalinidade e às propriedades ópticas Romero, Ricardo Pavel Panta January 2017 (has links) Neste trabalho foi estudada a produção, por síntese hidrotermal assistida por microondas, nanoestruturas de pentóxido de nióbio (Nb2O5) a partir do precursor pentacloreto de nióbio (NbCl5). A síntese foi realizada nas temperaturas de 150 e 200 °C durante 130 min, e o produto obtido foi tratado termicamente a temperaturas de 600, 800 e 1000 °C por 60 min com taxa de aquecimento de 10 °C/min. Os produtos obtidos foram caracterizados por análise termogravimétrica (ATG), para detectar a perda de massa com a temperatura; por difração de raios X (DRX), para análise da estrutura cristalina; por espectroscopia de infravermelho por transformada de Fourier (FTIR) e por espectroscopia Raman, para identificação das fases formadas; por microscopia eletrônica de varredura (MEV) e microscopia eletrônica de transmissão (MET), para verificação da morfologia do material; e por espectroscopia de refletância difusa (ERD), para identificar as propriedades ópticas do material. Além dessas, foram realizados cálculos do tamanho do cristalito pela equação de Scherrer. Os resultados indicaram a formação de nanoestruturas com diversas fases cristalinas de nióbio (TT, T, B, M e H-Nb2O5). O tamanho do cristalito variou em função da temperatura de tratamento térmico praticado: entre 35,85 e 38,80 nm para as amostras sintetizadas a 150 °C; e entre 34,84 e 40,93 nm para as amostras sintetizadas a 200 °C. Com a análise por refletância difusa foram obtidos os valores de band gaps para as amostras sintetizadas, e os resultados identificaram material semicondutor com uma variação de 3,13 a 3,90 eV. / In this work was studied the production by hydrothermal synthesis assist for microwave, niobium pentoxide nanocrystals (Nb2O5) obtained from the precursor pentachloride niobium (NbCl5). The synthesis was carried out at temperature of 150 and 200 °C for 130 min and the product obtained was calcined at temperatures 600, 800 and 1000 °C for 60 min and heating rate at 10 °C/min. The following characterizations were performed for analysis of the material, among them, thermal gravimetric analysis (ATG) for detecting the lost mass by temperature, X-ray diffraction (XRD) for analysis of the crystal structure, Fourier Transform Infrared spectroscopic (FTIR) and Raman spectroscopic was used for analyze the changes in superficial chemical connections, scanning electron microscopy (SEM) and transmission electronic microscopic (TEM) for morphology of material and diffuse reflectance spectroscopy (DRS) for identification the material optical properties. Moreover, calculate were realized of crystallite size by Scherrer’s equation. The results showed the formation of nanostrutured with various phases (TT, T, B, M e H-Nb2O5). The crystallite size varied in function of thermal treatment temperature from 35,85 to 38,80 nm for synthesizes samples in 150 °C and 34,84 to 40,93 nm for synthesizes samples in 200 °C. With the analysis by diffuse reflectance were obtained the band gap values for the synthesized samples and the results identify a semiconductor material with a variation from 3,13 to 3,90 eV. Nanoestruturas Pentóxido de nióbio Niobium pentoxide Morphology Crystallinity and optical properties
18	Polymérisation radicalaire en continu dans un système millifluidique assistée par micro-ondes / Continuous polymerization in a millifluidic device assisted by microwaves Garagalza, Oihan 11 December 2013 (has links) Les synthèses de polymérisation assistées par micro-ondes sont reconnues pour réduire les temps de chauffe et améliorer des rendements en comparaison à celles effectuées sous chauffage conventionnel. Cette technique étant limitée par la profondeur de pénétration des micro-ondes, un dispositif millifluidique en continu couplé à l’irradiation micro-onde a été développé et étudié. Dans ce travail, une étude des réactions de polymérisation et de copolymérisation d’un couple de monomères (acide acrylique et styrène sulfonate de sodium) a été réalisée. Ces polymères ont été synthétisés par polymérisation radicalaire en réacteur discontinu ouvert sous chauffage conventionnel et sous irradiation micro-ondes dans un premier temps. Dans une seconde partie, ces polymères ont été synthétisés dans un dispositif millifluidique sous chauffage conventionnel et sous irradiation micro-onde. Enfin une dernière partie concerne l’étude de ces synthèses en millifluidique micro-ondes, pour cela un nouveau dispositif, associant micro-ondes et procédé fluidique, a été développé. Un nouvel outil de lecture de la température a été mis en place et l’utilisation d’une sonde chimique interne a été validée. Des synthèses de (co)polymères ont été réalisées et les résultats en termes de cinétiques comparés aux systèmes précédents. / Assisted microwave polymerization syntheses are known to reduce heating time and to improve yields as compared to the syntheses conducted under conventional heating methods. Nevertheless, this technique is limited by the penetration depth of microwaves. Within this work, a millifluidic device coupled to the microwaves irradiation has been developed and studied.Polymerization and copolymerization reactions of both monomers, acid acrylic and sulfonated styrene, were carried out. First, these polymers were synthesized by radical polymerization in a batch reactor under conventional heating and under microwaves irradiation. Secondly, these polymers have been synthesized and compared in a millifluidic device under conventional heating and under microwave irradiation. At last, a specific device has been developed to do the polymerization in millifluidic condition and under microwaves irradiation. A new tool for reading the temperature inside this system was implemented and the use of a chemical probe was validated. (Co)polymers have been obtained and the results, especially in terms of kinetics, have been compared to the above systems. Polymérisation radicalaire Millifluidique Synthèse assistée par micro-ondes Copolymères Radical polymerization Millifluidic Microwave assisted synthesis Copolymers
19	Síntese e caracterização de nanoestruturas de TiO2 de alta eficiência fotocatalítica obtidas pelo método dos peróxidos oxidantes combinado com tratamento solvotermal assistido por microondas Garcia, Ana Paula January 2016 (has links) Dióxido de titânio com alta área superficial específica na fase anatase é considerado um material promissor para aplicações ambientais. Neste trabalho, TiO2 com boa aplicabilidade em processos fotocatalíticos e na produção de hidrogênio foi obtido pelo método com baixo consumo de energia baseado na rota dos peróxidos oxidantes combinado com tratamento solvotermal assistido por microondas. Para preparar o material, propóxido de titânio, peróxido de hidrogênio e álcool isopropílico foram utilizados. A influência do tempo, do pH e da temperatura durante a etapa solvotermal nas propriedades como morfologia, cristalinidade, composição de fase, área superficial específica e comportamento fotocatalítico foram investigados. As amostras foram caracterizadas por difração de raios X (DRX), microscopia eletrônica de varredura (MEV), microscopia eletrônica de transmissão (MET), análise termogravimétrica (ATG), teoria Brunauer-Emmett-Teller (BET), reflectância difusa e espectroscopia por emissão fluorescente. A fotoatividade foi determinada usando o método de decomposição do corante alaranjado de metila em luz UV-A e a produção de hidrogênio foi realizada em água usando etanol como agente de sacrifício. Com o aumento da temperatura durante a etapa solvotermal, as propriedades fotocatalíticas foram melhoradas. As nanoestruturas de TiO2 sintetizadas a 200°C e 30 min a partir deste método mostraram atividade fotocatalítica comparável ao do TiO2 P25 comercial Aeroxide©. Isso pode ser atribuído ao fato de que a energia associada a esta temperatura tenha sido suficiente para converter a maioria dos precursores em produtos cristalinos e pouca fase amorfa está presente. Foi possível produzir, com sucesso, nanoestruturas de TiO2, via método dos peróxidos oxidantes e tratamento solvotermal assistido por microondas em diferentes pHs. O material tratado em pH 1 exibiu melhor comportamento fotocatalítico na degradação da solução contendo alaranjado de metila. Aparentemente, o pH do meio não afetou significativamente a microestrutura das amostras. Foi observado uma diminuição na intensidade fotoluminescente da amostra preparada em pH ácido. Isso ocorre provavelmente porque as modificações ácidas em TiO2 favorecem eficientemente a separação das cargas, que está também relacionada com o comportamento dessa amostra durante o processo de degradação. Em relação à produção de hidrogênio, foi possível observar que a razão aumentou com o aumento do pH da solução. Isso pode ser atribuído ao aumento da concentração de OH- fisisorvidos, os quais podem participar dos processos de trapeamento das lacunas e nas reações de transferência de cargas. Por último, esses resultados foram notáveis porque foi utilizado um método de preparação com baixo consumo de energia onde apenas precursores orgânicos e baixas temperaturas foram empregados. Além disso, calcinação ou dopagem não foram necessários para alcançar tal desempenho, uma vez que, os catalisadores assim preparados exibiram boa atividade fotocatalítica na remoção de poluentes da água como o alaranjado de metila e na produção de hidrogênio. / Titanium dioxide with high specific surface area in the crystalline anatase phase is a promising material for environmental applications. In this work, TiO2 with good applicability for photocatalytic processes and hydrogen production has been obtained using the low energy consumption synthesis based on oxidant peroxide method combined with microwave-assisted low temperature solvothermal treatment. To prepare the material, titanium propoxide, hydrogen peroxide, and isopropyl alcohol were used. The influence of time, pH and temperature during the solvothermal step on properties like, morphology, crystallinity, phase composition, specific surface area, and photocatalytic behavior were investigated. The samples were characterized by X-ray diffraction (XRD), scanning electron microscopy (SEM), scanning electron transmission (TEM), thermal gravimetric analysis (TGA), Brunauer- Emmett-Teller theory (BET), UV–Vis diffuse reflectance and fluorescence emission spectroscopy. Photoactivity was determined using the methyl orange decomposition method in UV-A light and hydrogen production was performed in water using ethanol as sacrificial agent. Increasing temperature during solvothermal step, photocatalytic properties could be improved. The nanostructured TiO2 particles synthesized at 200ºC and 30 min with this method showed photocatalytic activity comparable to commercial Aeroxide® TiO2 P25. This can be attributed to the fact that the energy associated with this temperature has been sufficient to convert most of precursors into crystalline products and small amount of amorphous phase is present. We successfully produced nanostructured TiO2 via the oxidant peroxide method and microwave-assisted solvothermal treatment at different pHs. The material that we treated at pH 1 exhibited better photocatalytic performance on the degradation of methyl orange solutions. It appears that the pH of the medium does not significantly affect the microstructure of the samples. It was observed a decrease in the photoluminescence intensity of the sample prepared at acidic pH. This finding likely occurred because the acidic modification of TiO2 favors efficiently separating the charge carriers, which is also related to the behavior of this sample during the degradation process. Related to hydrogen production, it was possible to observe that the rate increases with increasing solution pH. This has been attributed to the increased concentrations of physisorbed OH− groups at basic solutions, which participate in hole trapping processes and charge transfer reactions. Lastly, these results are remarkable because of the low energy consumption preparation method: only organic-metalic compounds and low temperatures were employed. Furthermore, calcination or doping was not necessary to achieve such performance, since the asprepared catalysts exhibited good photocatalytic activity on removal of pollutants from water as the methyl orange and on hydrogen production. Dióxido de titânio Fotocatálise Produção de hidrogênio TiO2 Oxidant peroxide metho
20	Assessment of the levels of polycyclic aromatic hydrocarbons(PAHs) in sediments and water from Mokolo and Blood rivers of the Limpopo Province, South Africa Mogashane, Tumelo Monty January 2017 (has links) Thesis (M.Sc. (Chemistry)) --University of Limpopo, 2017 / The presence of polycyclic aromatic hydrocarbons (PAHs) in the environment is of major concern since these compounds are highly persistent, toxic and wide spread pollutants. The aim of this study was to evaluate the levels of PAHs in water and sediment samples collected from Blood and Mokolo Rivers in Limpopo Province, South Africa. Liquid-liquid extraction (LLE) was used for the extraction of PAHs from water, whereas PAHs in sediments were extracted using optimised microwaveassisted extraction (MAE). Furthermore, ultrasonication and a combination of ultrasonication and mechanical agitation were used for the extraction of PAHs from sediments samples. The quantification of sixteen (16) PAHs in water and sediment was carried out using gas chromatography-mass spectrometry (GC-MS) in selected ion monitoring (SIM) mode and by GC-flame ionisation detector (GC-FID). Concentrations of PAHs in sediments were higher than in water. The highest concentrations of PAHs were obtained in Mokolo River sediments, with the concentration ranging between 0.044 and 51.9 mg/kg. The levels of PAHs recorded in Blood River sediments were lower than those obtained in Mokolo River with concentrations ranging between 0.014 and 3.10 mg/kg. In water samples, higher levels of PAHs were observed in Mokolo River (between 0.0219 and 1.53 µg/L) while lower concentrations were recorded in Blood River (between 0.0121 and 0.433 µg/L). In water and sediment samples from both Rivers, higher molecular weight (HMW) PAH compounds (4-6 rings) were found at greater concentration levels than lower molecular weight (LMW) PAHs (2-3 rings), and this can be attributed to pyrogenic activities in the study areas. The efficiencies and accuracy of the methods for the extraction of PAHs were determined by assessing the recoveries of samples spiked with known amount of standards (for water samples), while a certified reference material (CRM) was used for sediments. Percentage recoveries ranged from 67.6 to 115% for LLE and 83.8 to 125% for MAE for both sample types. Diagnostic ratio was used for the source identification of PAHs in sediment samples. Several PAHs ratios indicated that both pyrogenic and petrogenic could be the sources of these compounds in both rivers. Toxic equivalency factors (TEFs) and benzo(a)pyrene equivalent (BaPE) were used to quantitatively estimate the PAHs potential human health risk. The assessment of ecotoxicological risk indicated that the v sediment samples collected from Mokolo River are at high toxicity risk while sediments from Blood River are at low sediment toxicity risk. / Water Research Commission (WRC), National Research Foundation (NRF) and Sasol Inzalo Foundation Polycyclic aromatic hydrocarbons (PAHs) Liquid-liquid extraction (LLE) Microwave assisted extraction (MAE) Polycyclic aromatic hydrocarbons

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