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Polyaniline and Graphene Based Symmetric and Asymmetric Solide-State SupercapacitorLiu, Chang 28 May 2015 (has links)
No description available.
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Ammonia decomposition by plasma catalysisShawon, Minhazur Rahman 13 August 2024 (has links) (PDF)
Ammonia decomposition plays a crucial role in various industrial and environmental processes, including the production of hydrogen, clean energy storage. Plasma catalysis presents a promising option that utilizes the unique properties of plasma to drive chemical reactions at a lower temperature than traditional methods. This study examines the effectiveness of plasma catalysis for ammonia decomposition on ruthenium (Ru) supported on alumina (Al₂O₃) as the catalyst. The research indicates that the catalytic performance of Ru is significantly impacted by its loading on the alumina support. The study identifies optimal Ru loading conditions, which lead to substantial improvements in ammonia decomposition. The incorporation of alkali metal promoters, such as sodium (Na), potassium (K), lithium (Li), and cesium (Cs), enhances the catalytic activity, especially at lower Ru loadings (0.01%). This study highlights the potential of Ru-based catalysts with alkali metal promoters in plasma catalytic systems for efficient ammonia decomposition.
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Mechanical Performance of Natural / Natural Fiber Reinforced Hybrid Composite Materials Using Finite Element Method Based Micromechanics and ExperimentsRahman, Muhammad Ziaur 01 May 2017 (has links)
A micromechanical analysis of the representative volume element (RVE) of a unidirectional flax/jute fiber reinforced epoxy composite is performed using finite element analysis (FEA). To do so, first effective mechanical properties of flax fiber and jute fiber are evaluated numerically and then used in evaluating the effective properties of ax/jute/epoxy hybrid composite. Mechanics of Structure Genome (MSG), a new homogenization tool developed in Purdue University, is used to calculate the homogenized effective properties. Numerical results are compared with analytical solution based on rule of mixture, Halpin-Tsai as well as Tsai-Hahn equations. The effect of the volume fraction of the two different fibers is studied. Mechanical performance of hybrid composite is compared with the mechanical performance of single fiber composites. Synergistic effect due to hybridization is studied using analytical method given in literature, finite element method based MSG and Classical Lamination Theory (CLT). It is found that, when Poisson ratio is taken into consideration, elastic modulus shows synergy due to hybridization. Finally, impact properties of ax/jute/epoxy hybrid composite material are studied using Charpy impact testing.
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Synergistic fire- and mechanical effect of biochar and ammonium polyphosphate in epoxy compositeOlausson, Anton, Jönsson, Ludvig January 2023 (has links)
Polymer composites are used in a varying extent and are challenging the use of traditional materials due to the push towards sustainable development. They have replaced steels and aluminum alloys in applications. Polymer composites are used in load-bearing and semi-load bearing applications in automotive, transport and aerospace industry due to their good characteristics. Polymer poses beneficial characteristics such as chemical stability, corrosion resistance, attractive strength-to-weight ratio, and be processed with ease. However, many polymers are highly flammable, making them a fire hazard. The fact that polymer composite is highly flammable, they need to undergo fire safety treatment that are sustainable towards the environment and humans. In this study biochar and ammonium polyphosphate (APP) were added in different combinations to epoxy resin. The purpose was to evaluate the synergistic effects that biochar and APP has on epoxy composite and how it will affect the fire- and mechanical properties. Additionally, developing a composite that retains a high compressive strength while increasing its thermal stability. Lastly, evaluate if the best performing composite could be recommended for load/semi-load‑bearing applications along with being sustainable towards the environment and humans. This thesis was conducted through literature study and laboratory work where three different tests were done such as cone calorimeter (CC), thermogravimetric analysis (TGA) and compressive test. The CC and TGA test were done to analyze the synergistic effect APP and biochar had on epoxy composites fire properties, but also determine which composition obtained the best fire properties. The compressive test was done to analyze the synergistic effect APP and biochar had on the epoxy composites mechanical properties. From the CC- and TGA tests it was observed that biochar and APP individually improved the fire properties of the epoxy where a decrease in peak heat release rate per unit area (PHRRPUA) and a decrease in mass loss was obtained. Additionally, it was noticed that the addition of only APP had a greater impact in improving the fire properties compared to only biochar. However, a combination of 15 wt.% biochar and 20 wt.% APP improved the fire properties the most. The compression tests indicated that biochar reduced the compressive strength drastically compared to the neat epoxy, since the biochar-based samples exhibited a porous structure. The addition of only APP in the epoxy showed a minimal reduction in compressive strength compared to neat epoxy. In conclusion, biochar and APP were improving the fire properties of epoxy composite whereas the compressive strength decreased. Overall, by an addition of only APP to the epoxy, the fire properties were enhanced where the compressive strength was conserved compared to neat epoxy. Since the composition with only APP performed the best overall, this composition can thereby be recommended for development in load/semi-load-bearing applications.
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Avaliação da atividade antimicrobiana de ramnolipídeos sobre Listeria monocytogenes / Antimicrobial activity of rhamnolipids against Listeria monocytogenesMagalhães, Luana 16 February 2012 (has links)
Os ramnolipídeos (RL) são biossurfatantes que apresentam características de grande interesse para a indústria de alimentos, tais como alta biodegradabilidade, baixa toxicidade e propriedades emulsionantes. Este trabalho teve como objetivo avaliar a atividade antimicrobiana do ramnolipídeo comercial (RL-Com - Jeneil Co.) e do ramnolipídeo produzido e purificado no Laboratório de Biotecnologia Microbiana (RL-LBM) sobre culturas de Listeria monocytogenes, através da determinação da concentração inibitória mínima (CIM) utilizando o método de microdiluição em caldo. Os valores de CIM dos RLs variaram entre 78,1 μg mL-1 e 2500 μg mL-1 sendo que a CIM predominante foi de 2500 μg mL-1. Dentre as 32 L. monocytogenes testadas 68,7% foram sensíveis ao RL-LBM e 90,6% sensíveis ao RL-Com. O efeito do ramnolipídeo sobre L. monocytogenes mostrou-se predominantemente bacteriostático. O RL aumentou a permeabilidade celular de L. monocytogenes, contudo este efeito não foi relacionado à sua atividade antimicrobiana. A interação entre os antimicrobianos RL-Com e nisina foi avaliada sobre dois isolados de L. monocytogenes com sensibilidades diferentes ao RL, o L17 menos sensível, com CIM de 2500 μg mL-1, e o L12 mais sensível, com CIM de 156,2 μg mL-1. O índice CIF obtido para os isolados foi de 0,078 e 0,18 , para L17 e L12 respectivamente, caracterizando o efeito sinérgico da combinação entre RL e nisina. As curvas de sobrevivência dos isolados L12 e L17 mostraram que a interação entre a nisina e o RL foi bactericida em concentrações menores que as obtidas individualmente para cada antimicrobiano. Para a L12 a combinação de 78,1 μg mL-1 de RL e 160 UI mL-1 de nisina reduziu completamente a população em 30 min de tratamento, e para a L17 a combinação de 156,2 μg mL-1 de RL e 320 UI mL-1 de nisina foi bactericida após 2 h. Os resultados obtidos neste trabalho demonstraram que o ramnolipídeo possui potencial como agente de controle de L. monocytogenes assim como efeito sinérgico quando combinado à nisina. / The rhamnolipids (RL) are biodegradable biosurfactants which have low toxicity and surface activity properties that can be useful for food processing industries. The objective of this study was to evaluate the susceptibility of Listeria monocytogenes with two rhamnolipids products: the rhamnolipid from P. aeruginosa LBI that was produced and purified in the Microbial Biotechnology Laboratory (RLMBL) and a commercial product (RL-Com - Jeneil Co.). Susceptibility tests were performed by the minimal inhibitory concentration (MIC) using the micro-broth dilution technique. The MIC values varied from 78.1 μg mL-1 to 2500 μg mL-1 and the 2500 μg mL-1 concentration was the predominant value . Among the 32 tested cultures, 68.7% were susceptible to RL-MBL and 90.6% to RL-Com. Results showed that the rhamnolipid activity was primarily bacteriostatic. The RL increases the membrane permeability of L. monocytogenes, however this effect was not directly related to its antimicrobial activity. The combined effect of nisin and RL-Com was evaluated against two wild-type isolates of L. monocytogenes, L12 more sensitive (MIC 156.2 μg mL-1) and L17 less sensitive (2500 μg mL-1). The FIC index for the isolates were 0.18 and 0.078 for L12 and L17 respectively, indicating a particular synergistic effect. The survival curve of isolates L12 and L17 showed that the combination between nisin and RL was bactericidal at lower concentration than for the individual antimicrobials. For L12 isolate 78.1 μg mL-1 of RL and 160 UI mL-1 of nisin eliminated the population after 30 min of incubation. The combination of 156.2 μg mL-1 of RL and 320 UI mL-1 of nisin reduced completely L17 population after 2 h of incubation. This work demonstrated the potential antimicrobial activity of rhamnolipids against L. monocytogenes, as well as the synergistic effect of this biosurfactant with nisin.
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Avaliação da atividade antimicrobiana de ramnolipídeos sobre Listeria monocytogenes / Antimicrobial activity of rhamnolipids against Listeria monocytogenesLuana Magalhães 16 February 2012 (has links)
Os ramnolipídeos (RL) são biossurfatantes que apresentam características de grande interesse para a indústria de alimentos, tais como alta biodegradabilidade, baixa toxicidade e propriedades emulsionantes. Este trabalho teve como objetivo avaliar a atividade antimicrobiana do ramnolipídeo comercial (RL-Com - Jeneil Co.) e do ramnolipídeo produzido e purificado no Laboratório de Biotecnologia Microbiana (RL-LBM) sobre culturas de Listeria monocytogenes, através da determinação da concentração inibitória mínima (CIM) utilizando o método de microdiluição em caldo. Os valores de CIM dos RLs variaram entre 78,1 μg mL-1 e 2500 μg mL-1 sendo que a CIM predominante foi de 2500 μg mL-1. Dentre as 32 L. monocytogenes testadas 68,7% foram sensíveis ao RL-LBM e 90,6% sensíveis ao RL-Com. O efeito do ramnolipídeo sobre L. monocytogenes mostrou-se predominantemente bacteriostático. O RL aumentou a permeabilidade celular de L. monocytogenes, contudo este efeito não foi relacionado à sua atividade antimicrobiana. A interação entre os antimicrobianos RL-Com e nisina foi avaliada sobre dois isolados de L. monocytogenes com sensibilidades diferentes ao RL, o L17 menos sensível, com CIM de 2500 μg mL-1, e o L12 mais sensível, com CIM de 156,2 μg mL-1. O índice CIF obtido para os isolados foi de 0,078 e 0,18 , para L17 e L12 respectivamente, caracterizando o efeito sinérgico da combinação entre RL e nisina. As curvas de sobrevivência dos isolados L12 e L17 mostraram que a interação entre a nisina e o RL foi bactericida em concentrações menores que as obtidas individualmente para cada antimicrobiano. Para a L12 a combinação de 78,1 μg mL-1 de RL e 160 UI mL-1 de nisina reduziu completamente a população em 30 min de tratamento, e para a L17 a combinação de 156,2 μg mL-1 de RL e 320 UI mL-1 de nisina foi bactericida após 2 h. Os resultados obtidos neste trabalho demonstraram que o ramnolipídeo possui potencial como agente de controle de L. monocytogenes assim como efeito sinérgico quando combinado à nisina. / The rhamnolipids (RL) are biodegradable biosurfactants which have low toxicity and surface activity properties that can be useful for food processing industries. The objective of this study was to evaluate the susceptibility of Listeria monocytogenes with two rhamnolipids products: the rhamnolipid from P. aeruginosa LBI that was produced and purified in the Microbial Biotechnology Laboratory (RLMBL) and a commercial product (RL-Com - Jeneil Co.). Susceptibility tests were performed by the minimal inhibitory concentration (MIC) using the micro-broth dilution technique. The MIC values varied from 78.1 μg mL-1 to 2500 μg mL-1 and the 2500 μg mL-1 concentration was the predominant value . Among the 32 tested cultures, 68.7% were susceptible to RL-MBL and 90.6% to RL-Com. Results showed that the rhamnolipid activity was primarily bacteriostatic. The RL increases the membrane permeability of L. monocytogenes, however this effect was not directly related to its antimicrobial activity. The combined effect of nisin and RL-Com was evaluated against two wild-type isolates of L. monocytogenes, L12 more sensitive (MIC 156.2 μg mL-1) and L17 less sensitive (2500 μg mL-1). The FIC index for the isolates were 0.18 and 0.078 for L12 and L17 respectively, indicating a particular synergistic effect. The survival curve of isolates L12 and L17 showed that the combination between nisin and RL was bactericidal at lower concentration than for the individual antimicrobials. For L12 isolate 78.1 μg mL-1 of RL and 160 UI mL-1 of nisin eliminated the population after 30 min of incubation. The combination of 156.2 μg mL-1 of RL and 320 UI mL-1 of nisin reduced completely L17 population after 2 h of incubation. This work demonstrated the potential antimicrobial activity of rhamnolipids against L. monocytogenes, as well as the synergistic effect of this biosurfactant with nisin.
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Catalyseurs bimétalliques pour l'oxydation des hydrates de carbone : recherche d'effets de synergie / Bimetallic catalysts for oxidation of carbohydrates : looking for synergetic effectsSha, Jin 18 October 2018 (has links)
Les nanoparticules bimétalliques supportées sont des catalyseurs particulièrement attractifs en raison d’une activité et d’une stabilité accrues par rapport à leurs homologues monométalliques. Dans cette thèse des solides à base d'or ont été étudiés en tant que catalyseurs de l'oxydation sélective du glucose en absence de base. Il a été mis en évidence que la variation du ratio molaire entre l’or et le second métal (Pd, Pt, or Cu) a un impact différent sur les performances catalytiques en fonction de la nature du second métal, du support et de la méthode de préparation. Les séries Au-Pd supportés sur TiO2 et préparés par la méthode de sol-immobilisation et Au-Cu supportés sur TiO2 et préparés par la méthode de précipitation-réduction ont montré un effet synergique important, en particulier lorsque le rapport entre les deux métaux était de 1. Ces catalyseurs convertissent sélectivement le glucose en acide gluconique et leur activité a été trouvée supérieure à celle des contreparties monométalliques. L'analyse XPS a démontré que les espèces Au+δ, Pd+2 et CuOH jouent alors un rôle important dans la réaction étudiée en absence de base. Le bismuth en tant que second métal n'a montré aucun effet bénéfique, au contraire du palladium et du cuivre. Les catalyseurs à base d’Au et de Pt supportés sur ZrO2 se sont avérés quant à eux très stables lorsque la teneur en or était inférieure à 0,3% en masse. La nature du support a un impact très important sur le mécanisme de la réaction conduite en absence base sur des catalyseurs à base d’or. La raison réside dans les interactions que ce support développe avec la phase bimétallique favorisant ainsi la formation des espèces actives / The supported bimetallic nanoparticles are particularly attractive catalysts due to the increased activity and stability over their monometallic counterparts. In this thesis, gold-based solids have been studied as catalysts for the selective base-free oxidation of glucose. It has been demonstrated that the variation of the molar ratio between gold and the second metal (Pd, Pt, or Cu) has a different impact on the catalytic performances depending on the nature of the second metal, the support and the method of preparation. TiO2 supported Au-Pd series prepared by the sol-immobilization method and Au-Cu series prepared by the precipitation-reduction method showed a significant synergistic effect, particularly when the ratio of the two metals was 1. Under the reaction conditions used (T = 60 °C or 80 °C, P = 5 bar air, t = 5 h), these catalysts selectivity to gluconic acid and their activity was found to be greater than that of monometallic counterparts, especially when the catalyst is supported on TiO2. XPS analysis showed that the Au+δ, Pd+2 and CuOH species played an important role in the base-free reaction. Bismuth as the second metal showed no beneficial effect, unlike palladium and copper. The Au-Pt catalysts supported on ZrO2 proved to be still active when the gold content was less than 0.3 wt.%. Ultimately, the nature of the support has a very important impact on the mechanism of the base-free reaction conducted on gold-based catalysts (formation of H2O2 in situ). The reason lies in the interactions of the support with the bimetallic phase thus favoring the formation of the active species
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Pokročilé oxidační procesy v environmentálních aplikacích / Advanced oxidation processes in environmental applicationsOLŠAN, Pavel January 2013 (has links)
The aim of this thesis is the study of application of the synergistic effects of various advanced oxidation processes (AOP) used for decomposition of chemical compounds resistant to biodegradation. The synergistic effect of photocatalytically active material and low temperature plasma were tested in my thesis. Model substances with photocatalytically active material were exposed to atmospheric plasma discharge (Gliding Arc) in order to improve generation of the active hydroxyl groups and oxidation processes. The first chapter of the theoretical part summarizes the knowledge of advanced oxidation processes, their principles and utilization. Next chapters are dedicated to basic summary of titanium dioxide and types of creating the thin films. The last part of theoretical chapter describes the types of plasma discharges. The experimental part describes the equipment for decomposition of chemical compounds resistant to biodegradation using AOP. Next chapter of the experimental part is dedicated to decomposition of organic dye AO7 and antibiotic Verapamil hydrochloride. The last chapter summarizes the results of the experiments.
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Efeito de glyphosate e clethodim isolados e em mistura em Digitaria insularis / Effect of glyphosate and clethodim isolate and in mixture on Digitaria insularisBianchi, Leandro 22 February 2018 (has links)
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Previous issue date: 2018-02-22 / Coordenação de Aperfeiçoamento de Pessoal de Nível Superior (CAPES) / Devido ao uso frequente do glyphosate na agricultura, o capim-amargoso (Digitaria insularis) tornou-se uma das plantas daninhas mais problemáticas no Brasil, por adquirir resistência a esse herbicida. Biótipos resistentes em estádios iniciais são facilmente controlados por graminicidas, porém em estádio mais avançado o controle é reduzido. O herbicida clethodim é um graminicida com alta eficiência, portanto, verificar o controle de biótipos resistentes ao glyphosate em diferentes estádios, com o uso isolado de clethodim e em mistura com o glyphosate é fundamental para auxiliar no manejo desta invasora. Assim o presente trabalho teve como objetivo avaliar o desempenho de glyphosate, clethodim e glyphosate + clethodim, em biótipo de D. insularis resistente e suscetível. O ensaio foi realizado em casa de vegetação, inteiramente casualizado, com quatro repetições e repetido em duas épocas do ano. As aplicações foram realizadas em estádio inicial (15 – 20 cm) e em florescimento. Avaliou-se o controle aos 21 dias e o peso da biomassa seca. Para a mistura dos produtos, foi verificada a interação entre os herbicidas: efeito sinérgico, antagônico ou aditivo. No ensaio com plantas em estádio inicial, avaliou-se a concentração de lipídeos na biomassa seca. De forma geral, a aplicação de clethodim aplicado isoladamente controlou o biótipo resistente em estádio inicial, porém em florescimento a eficácia foi reduzida. A mistura mostrou-se eficiente para controle de biótipo resistente em estádio inicial e em florescimento. Considerando as avaliações visuais de controle, a interação entre glyphosate e clethodim apresentou efeito sinérgico para doses intermediárias e aditivo para as maiores doses considerando o estádio inicial; em plantas florescidas, predominaram os efeitos aditivos para todas as doses. Para massa seca, a mistura teve interação sinérgica em todas as doses e estádios avaliados. As menores doses dos dois herbicidas reduziram os teores de lipídeos. / Due to frequent use of glyphosate in agriculture, sourgrass (Digitaria insularis) has become one of the most problematic weeds in Brazil for purchase resistance to this herbicide. Resistant biotypes in initial stages are easily controlled by graminicides, but in a more advanced stage the control is reduced. The herbicide clethodim is a graminicide with high efficiency, therefore, to check the control of resistant biotypes of glyphosate in different stages, with the isolated use of clethodim and in mixture with the glyphosate is fundamental to assist in the management of this weed. Thus the experiment was aimed at evaluate the action of glyphosate, clethodim and glyphosate + clethodim, in a resistant and susceptible biotype of D. insularis. The experiment was carried out in a greenhouse, completely randomized, with four replications and repeated at two times of the year. The applications were performed in the initial stage (15 - 20 cm) and flowering. Plants were evaluated at 21 days after application (DAA) and dry biomass weight. For the mixture of products, the interaction between the herbicides was also verified: synergistic, antagonistic or additive effect. In the experiment with plants at the initial stage, was evaluated the lipid concentration in the dry biomass. In general, the application of clethodim applied alone controlled the resistant biotype at the initial stage, but in flowering the efficiency was reduced. The mixture showed to be efficient for control of resistant biotype in initial and flowering stages. Considering the visual evaluations of control, the interaction between glyphosate and clethodim showed synergic effect for intermediate doses and additive for the highest doses considering the initial stage; in flowered plants, with the additive effects predominating for all as doses, the additive effect prevailed for all doses. For dry mass, the mixture had synergistic interaction at all doses and evaluated stages. Lower doses of both herbicides reduced lipid levels.
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Synergistic effect of ultrasonication on antimicrobial activity of cecropin P1 against Escherichia coliMaya Fitriyanti (6860123) 16 December 2020 (has links)
In this study we investigate the synergistic effect of low frequency ultrasonication (14, 22, and 47 kHz) on antimicrobial activity of Cecropin P1 against Escherichia coli. The hypothesis was tested by comparing three different treatments (1) ultrasonication only (2) Cecropin P1 only (3) combination of both. The results showed that the combined treatment deactivate E. coli more efficiently by six order of magnitude. The mechanism of membrane permeabilization due to Cecropin P1 is also investigated using dye leakage experiment. The result indicated pore formation and carpet mechanism. Finally, a mathematical modeling is proposed to explain the synergistic effect, allowing us to make better prediction for cell deactivation.
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