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  • About
  • The Global ETD Search service is a free service for researchers to find electronic theses and dissertations. This service is provided by the Networked Digital Library of Theses and Dissertations.
    Our metadata is collected from universities around the world. If you manage a university/consortium/country archive and want to be added, details can be found on the NDLTD website.
11

Elaboration d'isolants thermiques à partir de matériaux siliciques poreux nanostructurés / Development of thermal insulators from nanostructured porous siliceous materials

Bippus, Laurent 16 April 2009 (has links)
L’objectif de cette thèse est d’élaborer de nouveaux (super)isolants thermiques à partir de silices nanostructurées telles que les Silices Mésoporeuses Organisées et les phyllosilicates. Dans un premier temps, il s’agissait d’élaborer les matériaux en contrôlant les paramètres clé de synthèse, puis de les caractériser en évaluant notamment les propriétés thermiques. Les matériaux étudiés sont des micro- et nanoparticules de silice mésoporeuse d’une part, synthétisées avec des porosités intra- et interparticulaires contrôlées, et des phyllosilicates naturels et synthétiques d’autre part. Dans un deuxième temps, différents traitements post-synthèse ont été réalisés sur ces matériaux pour améliorer significativement leurs propriétés physico-chimiques –en particulier les propriétés d’isolation thermique– et leurs performances mécaniques. Par la suite, dans le cadre de l’étude des phyllosilicates modifiés, des composites peu denses phyllosilicates/polymères et phyllosilicates/tensioactifs intercalés et/ou exfoliés ont été élaborés afin d’améliorer les propriétés obtenues et de réaliser une mise en forme de ces matériaux. Les conductivités thermiques ont été déterminées sur l’ensemble des matériaux utilisés. / This thesis aims at developing new thermal (super)insulators from nanostructured silicas such as Organized Mesoporous Silicas and phyllosilicates. First, new materials were created controlling the key-parameters of the synthesis ; these materials were then finely characterized and especially their thermal properties. On one hand, studied materials are mesoporous silica micro- and nanoparticles synthesized with controlled intra- and interparticular porosities, and on the other hand natural and synthetic phyllosilicates. Then post-synthesis treatments were applied to enhance significantly thermal and mechanical performances of the products. In a further step, in the case of the treated phyllosilicates, low-density phyllosilicates/polymers composites and intercalated and/or delaminated phyllosilicates/surfactant composites were synthesized to improve the properties that were obtained and to process the materials. Thermal conductivity was determined for all the samples.
12

Graphene and functionalised graphene for flexible and optoelectric applications

Bointon, Thomas H. January 2015 (has links)
The landscape of consumer electronics has drastically changed over the last decade. Technological advances have led to the development of portable media devices, such as the iPod, smart phones and laptops. This has been achieved primarily through miniaturisation and using materials such as Lithium and Indium Tin Oxide (ITO) to increase energy density in batteries and as transparent electrodes for light emitting displays respectively. However, ten years on there are now new consumer demands, which are dictating the direction of research and new products are under constant development. Graphene is a promising next-generation material that was discovered in 2004. It is composed of a two-dimensional lattice made only from carbon. The atoms are arranged in a two atom basis hexagonal crystal structure which forms a fundamental building block of all sp2 hybrid forms of carbon. The production of large area graphene has a high cost, due to the long growth times and the high temperatures required. This is relevant as graphene is not viable compared to other transparent conductors which are produced on industrial scales for a fraction of the cost of graphene growth. Furthermore, graphene has a high intrinsic resistivity (2KW/_) which is three orders of magnitude greater than the current industry standard ITO. This limits the size of the electrodes as there is dissipation of energy across the electrode leading to inefficiency. Furthermore a potential drop occurs across the electrode leading to a non-uniform light emission when the electrode is used in a light emitting display. I investigate alternative methods of large area graphene growth with the aim of reducing the manufacturing costs, while maintaining the quality required for graphene human interface devices. Building on this I develop new fabrication methods for the production of large-area graphene devices which are flexible and transparent and show the first all graphene touch sensor. Focusing on the reducing the high resistivity of graphene using FeCl3 intercalation, while maintaining high optical transmission, I show low resistivity achieved using this process for microscopic graphene flakes, large-area graphene grown on silicon carbide and large-area graphene grown by CVD. Furthermore, I explore the stability of FeCl3 intercalated graphene and a process to transfer a material to arbitrary flexible substrates.
13

Isolation, culture and neurogenic differentiation of human dental stem cells

Masumbuko Kahamba, Nyota January 2016 (has links)
A Dissertation submitted to the Faculty of Health Sciences, University of the Witwatersrand, Johannesburg, in fulfillment of the requirements for the degree Of Master of Science in Medicine, 2016. / Dental stem cells (DSCs) have been identified in teeth and their supporting tissues. They represent an exclusive source of adult stem cells, easily isolated and manipulated for tissue repair and regeneration. This research project evaluated the neurogenic potential of the dental pulp stem cells (DPSCs) and stem cells from the pulp of human exfoliated deciduous teeth (SHEDs) in a South African cohort. Sixty non-carious permanent and deciduous teeth were extracted from healthy patients aged between 18 and 30 years and 5 and 10 years, at the University of the Witwatersrand's Oral Health Clinic in Johannesburg Charlotte Maxeke Academic Hospital, South Africa. The cells, isolated from the extracted pulp tissue were cultured, counted and then phenotyped by flow cytometry analysis. The cells were further expanded in a neural induction medium and immunocytochemistry analysis for Ki-67, doublecortin (DCX) and nestin were performed. Large colonies of both DPSCs and SHEDS were harvested from the extracted pulp tissues and positively cultured. Flow cytometry analysis confirmed the presence of CD44+ and CD29+ cells as well as the known mesenchymal stem cell markers CD90 and CD105. Both DPSCs and SHEDs demonstrated successful proliferation and neural differentiation. This study confirmed that DPSCs and SHEDs are highly proliferative human adult stem cells that exhibit a neurogenic potential that may contribute in the treatment of neurological disorders. / AC2017
14

Avaliação dos constituintes e do potencial mutagênico do material particulado oriundo do beneficiamento artesanal da castanha do caju / Assessment of the components and mutagenic potential of particulate matter from artisanal cashew nut roasting

Cabral, Thiago de Melo 08 June 2010 (has links)
DA CASTANHA DE CAJU Apesar da importância social e econômica do beneficiamento da castanha de caju para o Rio Grande do Norte, a produção ainda é realizada de forma artesanal. Para a coleta da amêndoa da castanha é necessário assá-la. A fumaça gerada durante a queima da castanha possui altas concentrações de Material Particulado (MP) e esse MP produzido é inalado diariamente por grupos familiares por um período que pode exceder a 10 horas diárias. Em geral, os poluentes atmosféricos oriundos da queima de biomassa são potencialmente nocivos a saúde, relacionando-se com eventos de genotoxicidade, aumento no número de internações hospitalares e ambulatoriais, e mortalidade por doenças cardiovasculares e respiratórias. O presente trabalho teve três objetivos principais: 1° Realizar medições na concentração de O3, NO2, MP, Black Carbon (BC) e composição elementar do MP 2,5 provenientes da queima da castanha. 2° Identificar o potencial mutagênico associado ao beneficiamento artesanal da castanha de caju durante a estação seca, chuvosa e intermediária no RN (Brasil) com o auxílio do teste de micronúcleo (MN) em Tradescantia pallida. 3° Verificar o efeito mutagênico da atividade em MN de células esfoliadas de mucosa oral de trabalhadores envolvidos no beneficiamento. Para isso, três locais distintos foram definidos como pontos testes: Ponto 1. Comunidade do Amarelão, situada no perímetro rural do município de João Câmara-RN (local onde ocorre a queima da castanha de caju); Ponto 2. Fazenda Santa Luzia, situada próxima à região de queima da castanha de caju (local com as mesma condições ambientais do Ponto 1, porém sem a influência da atividade); Ponto 3. Universidade Federal do Rio Grande do Norte (UFRN), zona urbana de Natal-RN. Os resultados obtidos para o O3 e NO2 não excederam os limites estabelecidos pela legislação brasileira. No entanto, os resultados da medição de MP obtidos com o medidor portátil \"DUSTTRAK (TM)Aerossol Monitor \" indicou que entre as 8 medições de MP realizadas no Ponto 1, 7 excederam o nível de exposição definido como \"estado de emergência \"descrito na legislação brasileira (500µg/m 3 ), diferindo significativamente dos resultados obtidos nos Pontos 2 e 3 (6µg/m 3 ). As avaliações realizadas nos meses de Janeiro, Maio e Setembro de 2009, com o Mini-sampler confirmaram os resultados previamente obtidos com o \"DUSTTRAK (TM)Aerossol Monitor \".O valor médio de MP 2,5 (Jan - 548,412 µg/m 3 ; Mai - 1022,232 µg/m 3 ; Set - 1291,946 µg/m 3 ) e BC (Jan - 46,798 µg/m 3 ; Mai 70,068- µg/m 3 ; Set - 69,432 µg/m 3 ) obtido nas três campanhas para o Ponto 1 foram significativamente maiores que o Ponto 2 e 3. Para o Ponto 1 os elementos Si, S, Cl, K, Ni, Cu e Zn quando presentes estiveram em concentrações superiores aos Pontos 2 e 3. Os testes de genotoxicidade com T. pallida indicou aumento significativo no número de MN em todas as campanhas. Os resultados com células de mucosa oral humana corroboraram com o biomonitor vegetal, sendo verificado aumento significativo na freqüência de MN. Os resultados obtidos caracterizaram um dos piores níveis de exposição humana ao MP já relatado na literatura, excedendo amplamente os limites da legislação brasileira assim como os da OMS. Os resultados obtidos apresentaram um problema ocupacional grave, sendo necessária intervenção imediata dos gestores públicos na tentativa de minimizar os efeitos lesivos da atividade. / x Despite the social and economic importance of the processing of cashew nuts to Rio Grande do Norte, the production is still carried out artisanally. To collect the almond nut is necessary to roasting. The smoke generated during the burning of the nut has high concentrations of particulate matter (PM) and the PM produced is inhaled daily by families for a period which can exceed 10 hours a day. In general, air pollutants come from burning biomass are potentially harmful to health, relating to genotoxicity events, increase in the number of hospitalizations and outpatient, and mortality from cardiovascular and respiratory diseases. This project had three main objectives: 1 Make measurements in the concentration of O3, NO2, MP, Black Carbon (BC) and elemental composition of the PM 2.5 from the combustion of the cashew nut. 2 Identify the mutagenic potential associated with artisanally processing of cashew nut during the dry season, wet and intermediate in RN (Brazil) by using a micronucleus (MN) bioassay of T. pallida tetrads. 3 To investigate the effect of mutagenic activity in exfoliated cells of oral mucosa of workers involved in processing. For this, three test sites were chosen for this purpose: Site 1. the Amarelão community - where the roasting occurs, Site 2. the Santa Luzia farm - an area near the roasting site, though without direct influence on the process and Site 3. the Universidade Federal do Rio Grande do Norte (UFRN) - an urban area of Natal, Brazil. The results obtained for the O3 and NO2 do not exceed the limits established by Brazilian legislation. However, the results of the measurement of PM obtained with the portable meter \"DUSTTRAK (TM) Aerosol Monitor\" has indicated that between 8 PM measurements made at Site 1, 7 exceeded the level of exposure defined as \"emergency rule\" described in the Brazilian legislation (500 ? g/m 3 ), differing significantly from the results obtained in Sites 2 and 3 (6 ? g/m 3 ). Evaluations in January, May and September 2009, with the Mini-sampler confirmed the results previously obtained with the \"DUSTTRAK (TM)Aerosol Monitor.The average value of 2.5 MP (Jan - 548.412 mg/m 3 ; May - 1022.232 mg/m 3 ; Set - 1291.946 mg/m 3 ) and BC (Jan - 46.798 mg/m 3 ; May 70.068 - mg/m 3 ; Set - 69.432 mg/m 3 ) obtained in the three campaigns for Site 1 were significantly higher than the Site 2 and 3. To the Site 1 the elements Si, S, Cl, K, Ni, Cu and Zn when present were at concentrations higher than the Sites 2 and 3. Genotoxicity tests with T. pallida showed a significant increase in the number of MN in all campaigns. The results with cells of human oral mucosa have confirmed the biomonitoring, and found significant increase in the frequency of MN. The results marked one of the worst levels of human exposure to PM has been reported in the literature and greatly exceeded the limits of the Brazilian legislation as well as the WHO. The results showed a serious occupational problem, requiring immediate intervention of public officials in an attempt to minimize the harmful effects of the activity.
15

Comparação entre fontes de células-tronco mesenquimais na indução à regeneração óssea / Comparison of mesenchymal stem cells from different sources in inducing bone formation

Almada, Bruno Vinicius Pimenta de 08 August 2013 (has links)
A regeneração óssea é um processo fisiológico que promove a neoformação de tecido ósseo saudável e funcional com características idênticas antes da lesão. Entretanto, frente a defeitos críticos, o osso é incapaz de se regenerar espontaneamente. Diante destas deficiências, a bioengenharia de tecidos ósseos (BTO) é uma opção promissora para a regeneração deste tipo de defeito. A maioria das abordagens de BTO utiliza as células-tronco mesenquimais da medula óssea (BMSC), porém, a coleta de BMSC dos pacientes é um processo bastante invasivo e doloroso. Por estas desvantagens, a busca por abordagens acessíveis e menos invasivas de novas fontes de células-tronco (CT) se tornou necessária. Neste contexto, as células-tronco de polpa de dentes decíduos (SHED) foram identificadas e sua aplicação na BTO, desde então, vem sendo amplamente estudada devido ao seu potencial osteogênico e por se tratar de uma fonte não invasiva. A obtenção de células-tronco do músculo orbicular do lábio (OOMDSC) também não causa dor adicional aos indivíduos, pois os fragmentos deste tecido são rotineiramente descartados durante as cirurgias de reconstrução do lábio. No presente trabalho investigamos o potencial de diferenciação osteoblástico in vitro e in vivo das OOMDSC e comparamos com as SHED, além disto, associamos estas células a biomateriais de HA/&beta;-TCP e investigamos a sua contribuição na neoformação óssea in vivo. O imunofenótipo de cada amostra de SHED e OOMDSC foi verificado para certificar a identidade de CT mesenquimais. Em seguida, as células em cultura foram submetidas à diferenciação osteoblástica in vitro. Em 9 e 14 dias de diferenciação as OOMDSC apresentaram menor atividade de fosfatase alcalina (p<0,0001) e menor marcação de matriz extracelular mineralizada, comparado às SHED (p<0,001), enquanto que em 21 dias estas diferenças não foram mais observadas. Quando associadas a biomateriais e implantadas em defeitos críticos calvariais bilaterais em ratos Wistar, tanto OOMDSC e SHED foram capazes de induzir neoformação óssea após 50 dias de cirurgia, conforme evidenciado pela análise morfológica e por micro-CT. Todavia, as células ósseas encontradas nos sítios da neoformação óssea não eram de origem humana. A avaliação da neoformação óssea in vivo induzida por SHED assim como a sua distribuição no enxerto foi verificada também em 07, 15 e 30 dias pós-cirúrgicos. Nestes períodos não há evidência de neoformação óssea, entretanto, as SHED estão localizadas no tecido conjuntivo que se forma e preenche o enxerto. Além disto, os dados sugerem que estas células estão relacionadas à modificações na microarquitetura do biomaterial e ainda à modulação dos números dos osteoclastos, também verificada nestas amostras. Portanto, podemos concluir que as OOMDSC são tão capazes de se diferenciar em osteoblastos quanto às SHED in vitro, porém esta diferenciação é mais lenta. Os experimentos in vivo indicam que as SHED possuem maior capacidade de indução à neoformação óssea quando comparadas às OOMDSC e que, em nosso modelo, as CT humanas não se diferenciam em osteoblastos in vivo. De qualquer forma a adição das CT ao biomaterial favorece a neoformação óssea, variações de microarquitetura e modulação dos osteoclastos. O fato de as ilhas ósseas não serem de origem humana indica que as células-tronco possam estar secretando fatores de indução à osteogênese, estimulando a neoformação óssea a partir das células do hospedeiro. / Bone regeneration is a physiological process, which promotes the growth of tissue at the site of injury, with the same characteristics of the original bone. However, when faced with critical defects the bone is unable to regenerate spontaneously. Bone tissue engineering (BTE) is a promising option for regenerating this type of defect. The majority of the approaches in BTE use Bone Marrow derived Mesenchymal Stem Cells (BMSC); however, the aspiration of bone marrow is a very invasive and painful procedure. Due to these disadvantages, the search for new, affordable and less invasive sources of stem cells (SC) has become necessary. In this context, stem cells from exfoliated deciduous teeth (SHED) have been identified and their application in BTE, since then, has been widely studied because they can be obtained non-invasively and due to their osteogenic potential. Stem cells from the orbicularis oris muscle (OOMDSC) are also obtained non-invasively and do not cause additional pain to individuals, because the fragments of this tissue are routinely discarded during lip reconstruction surgeries. In the present work we investigated, in vitro and in vivo, the osteoblastic differentiation potential of OOMDSC and compared with SHED; furthermore, we associated these cells with HA/&beta;-TCP scaffolds and investigate its contribution in the bone formation in vivo. The immunophenotype of each OOMDSC and SHED sample was verified to attest their mesenchymal stem cell identity. Then, cell cultures were submitted to osteoblastic differentiation in vitro. In 9 and 14 days of differentiation, OOMDSC exhibited lower alkaline phosphatase activity (p <0.0001) and lower mineralized extracellular matrix staining compared to SHED (p <0.001), whereas at 21 days, these differences were no longer observed. When associated with scaffolds and implanted into bilateral critical-sized calvarial defects in Wistar rats, both OOMDSC and SHED were able to induce bone formation after 50 days of surgery, as evidenced by morphological analysis and micro-CT. However, bone cells found at sites of bone formation were not of human origin. The evaluation of new bone formation in vivo induced by SHED as well as its distribution in the graft was performed at 07, 15 and 30 days after surgery. During these periods there was no evidence of new bone formation, however, SHED were located in the connective tissue that formed and filled the graft. Furthermore, our results suggest that these cells are related to changes in the microarchitecture of the scaffold and also to the modulation of the number of osteoclasts observed in these samples. In summary, our results suggest that OOMDSC are as capable to differentiate into osteoblasts as SHED in vitro, but this differentiation is slower. In vivo experiments indicate that SHED has a greater ability to induce bone formation when compared with OOMDSC, and that in our model, the human stem cells do not differentiate into osteoblasts in vivo. Nonetheless, the addition of SC to the scaffolds promotes bone formation, as well as variations in microarchitecture and modulation of osteoclasts. The fact that the bone islands are not of human origin indicates that the stem cells may be secreting osteogenesis-inducing factors, stimulating the host\'s cells to regenerate the defects.
16

Development of nano-graphene cementitious composites (NGCC)

Ilyas, Muhammad January 2016 (has links)
Ordinary Portland cement (OPC) is the main constituent of concrete works as a principal binder for aggregates and intrinsically transmits the brittleness into concrete through the formation of hydration crystals in the cement microstructure. A number of nano cementitious composites were developed in recent years to offset the brittleness with newly discovered nanomaterials and the most prevalent among those is the graphene oxide (GO). The main objective of this PhD research work is to develop nano graphene cementitious composites (NGCC) using low cost, two dimensional (2D) graphene nanoplatelets (GNPs) and one dimensional (1D) graphited carbon nanofibres (GCNFs) with unique conical surface morphology. The GNPs were sourced synthesised in an environmental friendly way via plasma exfoliation whereas, GCNFs were manufactured through catalytic vapour grown method. The project further investigated the effect of these nanomaterials in regulating the distinctive microstructure of cement matrix leading to enhance its mechanical properties. Three different types of high-performance NGCC namely NGCC-Dot, NGCC-Fnt and NGCC-CNF, are developed by activating pristine GNPs (G-Dot), functionalised GNPs (G-Fnt) and graphited nanofibers (G-CNFs) into the cement matrix respectively. It is found through various characterization and experimental techniques that both GNPs and GCNFs regulated the cement microstructure and influenced the mechanical properties of NGCC uniquely. A remarkable increase in the flexural and the tensile strength of newly developed NGCC has been achieved and that could be attributed to the formation of distinctive microstructure regulated by catalytic activation of these nanomaterials. The shape (1D, 2D) and unique morphology of these nanomaterials played a vital role in the mechanism of crystal formation to regulate the cement microstructure. Based on the observations of test results and comprehensive characterization, the possible mechanisms of crystal formation and development of distinctive microstructure of NGCC has been established which has then proceeded to the development of a physical model for NGCC development.
17

Avaliação dos constituintes e do potencial mutagênico do material particulado oriundo do beneficiamento artesanal da castanha do caju / Assessment of the components and mutagenic potential of particulate matter from artisanal cashew nut roasting

Thiago de Melo Cabral 08 June 2010 (has links)
DA CASTANHA DE CAJU Apesar da importância social e econômica do beneficiamento da castanha de caju para o Rio Grande do Norte, a produção ainda é realizada de forma artesanal. Para a coleta da amêndoa da castanha é necessário assá-la. A fumaça gerada durante a queima da castanha possui altas concentrações de Material Particulado (MP) e esse MP produzido é inalado diariamente por grupos familiares por um período que pode exceder a 10 horas diárias. Em geral, os poluentes atmosféricos oriundos da queima de biomassa são potencialmente nocivos a saúde, relacionando-se com eventos de genotoxicidade, aumento no número de internações hospitalares e ambulatoriais, e mortalidade por doenças cardiovasculares e respiratórias. O presente trabalho teve três objetivos principais: 1° Realizar medições na concentração de O3, NO2, MP, Black Carbon (BC) e composição elementar do MP 2,5 provenientes da queima da castanha. 2° Identificar o potencial mutagênico associado ao beneficiamento artesanal da castanha de caju durante a estação seca, chuvosa e intermediária no RN (Brasil) com o auxílio do teste de micronúcleo (MN) em Tradescantia pallida. 3° Verificar o efeito mutagênico da atividade em MN de células esfoliadas de mucosa oral de trabalhadores envolvidos no beneficiamento. Para isso, três locais distintos foram definidos como pontos testes: Ponto 1. Comunidade do Amarelão, situada no perímetro rural do município de João Câmara-RN (local onde ocorre a queima da castanha de caju); Ponto 2. Fazenda Santa Luzia, situada próxima à região de queima da castanha de caju (local com as mesma condições ambientais do Ponto 1, porém sem a influência da atividade); Ponto 3. Universidade Federal do Rio Grande do Norte (UFRN), zona urbana de Natal-RN. Os resultados obtidos para o O3 e NO2 não excederam os limites estabelecidos pela legislação brasileira. No entanto, os resultados da medição de MP obtidos com o medidor portátil \"DUSTTRAK (TM)Aerossol Monitor \" indicou que entre as 8 medições de MP realizadas no Ponto 1, 7 excederam o nível de exposição definido como \"estado de emergência \"descrito na legislação brasileira (500µg/m 3 ), diferindo significativamente dos resultados obtidos nos Pontos 2 e 3 (6µg/m 3 ). As avaliações realizadas nos meses de Janeiro, Maio e Setembro de 2009, com o Mini-sampler confirmaram os resultados previamente obtidos com o \"DUSTTRAK (TM)Aerossol Monitor \".O valor médio de MP 2,5 (Jan - 548,412 µg/m 3 ; Mai - 1022,232 µg/m 3 ; Set - 1291,946 µg/m 3 ) e BC (Jan - 46,798 µg/m 3 ; Mai 70,068- µg/m 3 ; Set - 69,432 µg/m 3 ) obtido nas três campanhas para o Ponto 1 foram significativamente maiores que o Ponto 2 e 3. Para o Ponto 1 os elementos Si, S, Cl, K, Ni, Cu e Zn quando presentes estiveram em concentrações superiores aos Pontos 2 e 3. Os testes de genotoxicidade com T. pallida indicou aumento significativo no número de MN em todas as campanhas. Os resultados com células de mucosa oral humana corroboraram com o biomonitor vegetal, sendo verificado aumento significativo na freqüência de MN. Os resultados obtidos caracterizaram um dos piores níveis de exposição humana ao MP já relatado na literatura, excedendo amplamente os limites da legislação brasileira assim como os da OMS. Os resultados obtidos apresentaram um problema ocupacional grave, sendo necessária intervenção imediata dos gestores públicos na tentativa de minimizar os efeitos lesivos da atividade. / x Despite the social and economic importance of the processing of cashew nuts to Rio Grande do Norte, the production is still carried out artisanally. To collect the almond nut is necessary to roasting. The smoke generated during the burning of the nut has high concentrations of particulate matter (PM) and the PM produced is inhaled daily by families for a period which can exceed 10 hours a day. In general, air pollutants come from burning biomass are potentially harmful to health, relating to genotoxicity events, increase in the number of hospitalizations and outpatient, and mortality from cardiovascular and respiratory diseases. This project had three main objectives: 1 Make measurements in the concentration of O3, NO2, MP, Black Carbon (BC) and elemental composition of the PM 2.5 from the combustion of the cashew nut. 2 Identify the mutagenic potential associated with artisanally processing of cashew nut during the dry season, wet and intermediate in RN (Brazil) by using a micronucleus (MN) bioassay of T. pallida tetrads. 3 To investigate the effect of mutagenic activity in exfoliated cells of oral mucosa of workers involved in processing. For this, three test sites were chosen for this purpose: Site 1. the Amarelão community - where the roasting occurs, Site 2. the Santa Luzia farm - an area near the roasting site, though without direct influence on the process and Site 3. the Universidade Federal do Rio Grande do Norte (UFRN) - an urban area of Natal, Brazil. The results obtained for the O3 and NO2 do not exceed the limits established by Brazilian legislation. However, the results of the measurement of PM obtained with the portable meter \"DUSTTRAK (TM) Aerosol Monitor\" has indicated that between 8 PM measurements made at Site 1, 7 exceeded the level of exposure defined as \"emergency rule\" described in the Brazilian legislation (500 ? g/m 3 ), differing significantly from the results obtained in Sites 2 and 3 (6 ? g/m 3 ). Evaluations in January, May and September 2009, with the Mini-sampler confirmed the results previously obtained with the \"DUSTTRAK (TM)Aerosol Monitor.The average value of 2.5 MP (Jan - 548.412 mg/m 3 ; May - 1022.232 mg/m 3 ; Set - 1291.946 mg/m 3 ) and BC (Jan - 46.798 mg/m 3 ; May 70.068 - mg/m 3 ; Set - 69.432 mg/m 3 ) obtained in the three campaigns for Site 1 were significantly higher than the Site 2 and 3. To the Site 1 the elements Si, S, Cl, K, Ni, Cu and Zn when present were at concentrations higher than the Sites 2 and 3. Genotoxicity tests with T. pallida showed a significant increase in the number of MN in all campaigns. The results with cells of human oral mucosa have confirmed the biomonitoring, and found significant increase in the frequency of MN. The results marked one of the worst levels of human exposure to PM has been reported in the literature and greatly exceeded the limits of the Brazilian legislation as well as the WHO. The results showed a serious occupational problem, requiring immediate intervention of public officials in an attempt to minimize the harmful effects of the activity.
18

Graphite Oxide And Graphite Oxide-Based Composites : Physicochemical And Electrochemical Studies

Ramesha, G K 09 1900 (has links) (PDF)
One of the major directions of research in the area of materials science is to impart multifunctionalities to materials. Carbon stands on the top of the list to provide various multifunctional materials. It exists in all dimensions, zero (fullerene), one (carbon nanotube, CNT), two (graphene) and three (graphite) dimensions are very well-known for their versatility in various studies. They are also used in various applications in nanoelectronics, polymer composites, hydrogen production and storage, intercalation materials, drug delivery, sensing, catalysis, photovoltaics etc. Electrical conductivity of carbon can be tuned from insulator (diamond) to semiconductor (graphene) to conductor (graphite) with varying band gap. The main reason for this versatility and varied properties is that carbon can be involved in different hybridizations. Graphene, a single layer of graphite has fascinated the world during the last several years culminating in a Nobel prize for Physics in 2010. The present study is an attempt to understand the physicochemical and electrochemical properties of graphite oxide and its reduced form. Graphene oxide (GO) possesses oxygen containing functional groups such as carbonyl, carboxyl and epoxy groups distributed very randomly in the extended graphene sheet which makes it ionically conducting and electrically insulating. The AFM images of single layer of graphite (graphene) obtained from micromechanical cleavage method and that of EGO are shown in figure 1. EGO is a layered material similar to graphite and can form very stable aqueous colloids over a wide pH range of 2-11. The stability of the colloid is due to electrostatic repulsive interactions between the functional groups. EGO behaves like a molecule due to its thickness (~1 nm) and like a particle due to its two dimensional nature (lateral size can vary from nm to few microns). It behaves as amphiphilic molecule having both hydrophilic and hydrophobic nature. Figure 1d shows the STM image of EGO which clearly indicates oxidized and unoxidized regions which will impart hydrophilic and hydrophobic regions respectively. Figure 1: AFM image of (a) graphene (b) EGO. STM image of (c) HOPG and (d) EGO. The present work is related to exploring EGO as a multifunctional material. Both hydrophilic and amphiphilic nature is explored for various studies. Reduced GO (rGO) is synthesized from EGO by assembling at different interfaces (solid-liquid and liquid-air) followed by reduction. Since EGO is hydrophilic, it is brought to the air-water interface with the help of a surfactant (CTAB) through electrostatic interactions. It is reduced chemically by hydrazine vapour to rGO and electrochemically by assembling EGO on gold through electrostatic interactions between EGO and amine groups of cystamine (figure 2). The reduction process is followed by AFM, UV-Visible and in-situ Raman spectroelectrochemistry. Figure 2: Schematic of EGO self assembly, cyclic voltammogram showing electrochemical reduction and schematic for in-situ Raman spectroelectrochemistry. The next section deals with composites of EGO and polymers. EGO/polyaniline (PANI) composite is formed by electrochemical polymerization under applied surface pressure. The in-situ electrochemical polymerization of aniline in the sub-phase of Langmuir-Blodgett trough under applied surface pressure in presence of EGO at the air-water interface leads to preferential orientation of PANI in the polaronic form. This is followed by electrochemistry and Raman spectroscopy. Figure 3 shows differential pulse voltammograms of EGO/PANI obtained under two different conditions. Externally polymerized sample shows three redox peaks at 0.086/0.064 V (A/A‟), 0.390/0.430 V (B/B‟) and 0.520/0.560 mV (C/C‟) which correspond to leucoemaraldine/emaraldine, quinone/hydroquinone and emaraldine/pernigraniline redox states respectively. The peak at C/C‟ vanishes when aniline is polymerized in-trough under applied surface pressure. This implies that oxidation of emaraldine to pernigraniline becomes difficult when sample is prepared in-trough. The Raman spectroscopy clearly reveals the preferential orientation of PANI in planar polaronic structure. Figure 3. Differential pulse voltammograms for EGO/PANI complex obtained through external polymerization (black) and in-trough polymerization (red). In the next part, EGO is used as a proton conducting material for polymer electrolyte membrane fuel cell (PEMFC). EGO possesses hydrophilic and hydrophobic regions similar to nafion (sulfonated tetrafluoroethylene based fluoropolymer-copolymer) and hence it can act as a good ionically conducting membrane. EGO is incorporated in poly(vinyl alcohol) (PVA) matrix and used in the present studies. The ionic conductivity increases from 10 μS cm-1 to 370 μS cm-1 when EGO content is increased from 1wt% to 7wt% in PVA matrix. Power densities of 25 and 90 mW cm-2 are obtained for PVA and PVA/EGO membranes in H2-O2 fuel cell at 40 0C respectively. In the next section, EGO is used as receptor for simultaneous electrochemical detection of heavy metal ions such as Cd, Pb, Cu and Hg with detection limit of 5 μM, 1 pM, 5 μM and 5 μM respectively. During the process it is observed that the EGO/PbO composite can give rise to detection limit of 10 nM for arsenic. Along with detection, EGO can also be used as an effective adsorbent for inorganics (metal ions) as well as organics (dye molecules). EGO behaves as good adsorbent for heavy metal ions and cationic dyes and rGO adsorbs anionic dyes effectively. Spectroscopic techniques are used to understand the interactions between adsorbent and adsorbates. The thesis is presented as follows: Chapter 1 gives general introduction about graphene and graphite oxide with particular emphasis on the latter one. Chapter 2 gives details on the experimental methods followed, along with schematics for various adsorption processes. Chapter 3 focuses on assembling EGO at interfaces (solid-liquid and liquid-air) followed by reduction with chemical and electrochemical methods. Chapter 4 explores EGO as an amphiphilic material where EGO is assembled at air-water interface with anilinium and subsequent electropolymerization to EGO/PANI composites. EGO/PVA composite is used as electrolyte for PEMFC. Chapter 5 explores EGO as receptor for heavy metal ion detection (Cd, Pb, Cu and Hg). Chapter 6 deals with EGO as adsorbent for adsorption of inorganics (metal ions) as well as organics (dye molecules). This is followed by summary and conclusions. The appendix section gives details on the studies on preparation of exfoliated graphite with various metal ion intercalation. The covalent functionalization of EGO with metal phthalocyanines and its assembly at air-water interface forms second part of the appendix. (For figures pl see the abstract pdf file)
19

Non-Precious Cathode Electrocatalytic Materials for Zinc-Air Battery

Kim, Baejung 13 December 2013 (has links)
In the past decade, rechargeable batteries attracted the attention from the researchers in search for renewable and sustainable energy sources. Up to date, lithium-ion battery is the most commercialized and has been supplying power to electronic devices and hybrid and electric vehicles. Lithium-ion battery, however, does not satisfy the expectations of ever-increasing energy and power density, which of their limits owes to its intercalation chemistry and the safety.1-2 Therefore, metal-air battery drew much attention as an alternative for its high energy density and a simple cell configuration.1 There are several different types of metal-air batteries that convey different viable reaction mechanisms depending on the anode metals; such as Li, Al, Ca, Cd, and Zn. Redox reactions take place in a metal-air cell regardless of the anode metal; oxidation reaction at the anode and reduction reaction at the air electrode. Between the two reaction, the oxygen reduction reaction (ORR) at the air electrode is the relatively the limiting factor within the overall cell reactions. The sluggish ORR kinetics greatly affects the performance of the battery system in terms of power output, efficiency, and durability. Therefore, researchers have put tremendous efforts in developing highly efficient metal air batteries and fuel cells, especially for high capacity applications such as electric vehicles. Currently, the catalyst with platinum nanoparticles supported on carbon material (Pt-C) is considered to exhibit the best ORR activities. Despite of the admirable electrocatalytic performance, Pt-C suffers from its lack of practicality in commercialization due to their prohibitively high cost and scarcity as of being a precious metal. Thus, there is increasing demand for replacing Pt with more abundant metals due economic feasibility and sustainability of this noble metal.3-5 Two different attitudes are taken for solution. The first approach is by optimizing the platinum loading in the formulation, or the alternatively the platinum can be replaced with non-precious materials. The purpose of this work is to discover and synthesize alternative catalysts for metal-air battery applications through optimized method without addition of precious metals. Different non-precious metals are investigated as the replacement of the precious metal including transition metal alloys, transition metal or mixed metal oxides, and chalcogenides. These types of metals, alone, still exhibits unsatisfying, yet worse, kinetics in comparison to the precious metals. Nitrogen-doped carbon material is a recently well studied carbon based material that exhibits great potential towards the cathodic reaction.6 Nitrogen-doped carbon materials are found to exhibit higher catalytic activity compared to the mentioned types of metals for its improved conductivity. Benefits of the carbon based materials are in its abundance and minimal environmental footprints. However, the degradation of these materials has demonstrated loss of catalytic activity through destruction of active sites containing the transition metal centre, ultimately causing infeasible stability. To compensate for these drawbacks and other limits of the nitrogen-doped carbon based catalysts, nitrogen-doped carbon nanotubes (NCNT) are also investigated in the series of study. The first investigation focuses on a development of a simple method to thermally synthesize a non-precious metal based nitrogen-doped graphene (NG) electrocatalyst using exfoliated graphene (Ex-G) and urea with varying amounts of iron (Fe) precursor. The morphology and structural features of the synthesized electrocatalyst (Fe-NG) were characterized by SEM and TEM, revealing the existence of graphitic nanoshells that potentially contribute to the ORR activity by providing a higher degree of edge plane exposure. The surface elemental composition of the catalyst was analyzed through XPS, which showed high content of a total N species (~8 at.%) indicative of the effective N-doping, present mostly in the form of pyridinic nitrogen groups. The oxygen reduction reaction (ORR) performance of the catalyst was evaluated by rotating disk electrode voltammetry in alkaline electrolyte and in a zinc-air battery cell. Fe-NG demonstrated high onset and half-wave potentials of -0.023 V (vs. SCE) and -0.110 V (vs. SCE), respectively. This excellent ORR activity is translated into practical zinc-air battery performance capabilities approaching that of commercial platinum based catalyst. Another approach was made in the carbon materials to further improve the cost of the electrode. Popular carbon allotropes, CNT and graphene, are combined as a composite (GC) and heteroatoms, nitrogen and sulfur, are introduced in order to improve the charge distribution of the graphitic network. Dopants were doped through two step processes; nitrogen dopant was introduced into the graphitic framework followed by the sulfur dopant. The coexistence of the two heteroatoms as dopants demonstrated outstanding ORR performance to those of reported as metal free catalysts. Furthermore, effects of temperature were investigated through comparing ORR performances of the catalysts synthesized in two different temperatures (500 ??? and 900 ???) during the N-doping process (consistent temperature was used for S-doping). Through XPS analysis of the surface chemistry of catalysts produced with high temperature during the N-doping step showed absence of N-species after the subsequent S-doping process (GC-NHS). Thus, the synergetic effects of the two heteroatoms were not revealed during the half-cell testing. Meanwhile, the two heteroatoms were verified in the catalyst synthesized though using low temperature during the N-doping process followed by the S-doping step (GC-NLS). Consequently, ORR activity of the resulting material demonstrated promising onset and half-wave potentials of -0.117 V (vs. SCE) and -0.193 V (vs. SCE). In combination of these investigations, this document introduces thorough study of novel materials and their performance in its application as ORR catalyst in metal air batteries. Moreover, this report provides detailed fundamental insights of carbon allotropes, and their properties as potential elecrocatalysts and essential concepts in electrochemistry that lies behind zinc-air batteries. The outstanding performances of carbon based electrocatalyst are reviewed and used as the guides for further direction in the development of metal-air batteries as a promising sustainable energy resource in the future.
20

Influ?ncia da vermiculita expandida na resist?ncia ? compress?o e reologia de pastas cimentantes de po?os de petr?leo

Lima, Fernando Antonio de Melo 30 April 2009 (has links)
Made available in DSpace on 2014-12-17T14:06:52Z (GMT). No. of bitstreams: 1 FernandoAML.pdf: 704139 bytes, checksum: 56133b8802fd230583fd96ae8805d657 (MD5) Previous issue date: 2009-04-30 / Several problems related to the loss of hydraulic seal in oilwells, causing gas migration and/or contamination of the production zone by water, have been reported. The loss of the hydraulic seal is a consequence of cracks which can be occasioned either by the invasion of gas during the wait on cement or by the expansion of the casing causing the fracture of the cement sheath. In case of the pressure of the formation is higher than the pressure in the annulus, gas can migrate into the slurry and form microannulus, which are channels where gas migrates after the cement is set. Cracks can be also occasioned by the fracture of the cement sheath when it does not withstand the thermal and dynamic loads. In reservoirs where the oil is heavy, steam water injection operation is required in order to get the oil flowing. This operation increases the temperature of the casing, and then it expands and causes the fracture of the cement sheath in the annulus. When the failures on the cement are detected, remedial cementing is required, which raise costs caused by the interventions. Once the use of cement in the construction civil sector is older than its use in the petroleum sector, it is common to bring technologies and solutions from the civil construction and apply them on the petroleum area. In this context, vermiculite, a mineral-clay widely encountered in Brazil, has been used, on its exfoliated form, in the civil construction, especially on the manufacture of lights and fireproof concretes with excellent thermal and acoustical properties. It has already been reported in scientific journals, studies of the addition of exfoliated vermiculite in Portland cements revealing good properties related to oilwell cementing operations. Thus, this study aimed to study the rheological behavior, thickening time, stability and compressive strength of the slurries made of Portland cement and exfoliated vermiculite in 5 different compositions, at room temperature and heated. The results showed that the compressive strength decreased with the addition of exfoliated vermiculite, however the values are still allowed for oiwell cementing operations. The thickening time of the slurry with no exfoliated vermiculite was 120 min and the thickening time of the slurry with 12 % of exfoliated vermiculite was 98 min. The stability and the rheological behavior of the slurries revealed that the exfoliated vermiculite absorbed water and therefore increased the viscosity of the slurries, even though increasing the factor cement-water. The stability experiment carried out at 133 ?F showed that, there was neither sedimentation nor reduction of the volume of the cement for the slurry with 12 % of exfoliated vermiculite. Thus, the addition of exfoliated vermiculite accelerates the set time of the cement and gives it a small shrinkage during the wait on cement, which are important to prevent gas migration / Muitos problemas relacionados ? perda do isolamento hidr?ulico em po?os de petr?leo, causando migra??o de g?s e contamina??o da zona produtora por migra??o de ?gua, t?m sido reportados. A perda do isolamento hidr?ulico ? conseq??ncia de trincas que por sua vez s?o conseq??ncias de uma cimenta??o mal feita, onde houve invas?o de g?s durante a pega da pasta gerando trincas tamb?m chamadas de microanulares que s?o os caminhos por onde a migra??o de g?s ocorre. Essas trincas tamb?m s?o ocasionadas pela fratura do cimento quando este n?o suporta as cargas t?rmicas e din?micas, as quais o cimento ? submetido durante sua vida. Em reservat?rios onde o ?leo encontrado ? bastante viscoso, opera??es de inje??o de vapor de ?gua s?o requeridas a fim de facilitar o escoamento do ?leo. Essa opera??o aumenta a temperatura da malha de po?os, fazendo com que o revestimento dilate e frature o cimento no anular, ocasionando a perda do isolamento hidr?ulico. Uma vez detectada falhas no isolamento hidr?ulico, opera??es de corre??o s?o requeridas o que acaba gerando custos, perda de tempo com a interven??o e lucro cessante. Como o setor de constru??o civil trabalha com cimento a muito mais tempo que o setor de petr?leo, ? comum lan?ar-se m?o de tecnologias e solu??es apresentadas na constru??o e aplicar com os devidos ajustes no ramo do petr?leo. Nesse contexto, a vermiculita, um argilomineral encontrado em abund?ncia no Brasil, tem sido aplicado, na sua forma expandida, na constru??o civil para confec??o de concretos leves, resistentes a fogo e com excelentes propriedades de isolamento t?rmico e ac?stico. J? tem sido reportado em revistas cient?ficas, estudos de sua adi??o em cimento portland com boas propriedades relacionadas ? cimenta??o de po?os de petr?leo. Dessa forma o presente trabalho objetivou estudar o comportamento reol?gico, tempo de pega e a resist?ncia a compress?o de pastas com vermiculita expandida e cimento portland classe especial em quatro composi??es diferentes, fazendo um comparativo com as propriedades existentes da pasta padr?o contendo apenas cimento portland e ?gua, em duas temperaturas, ambiente e aquecida. Os resultados mostraram que a resist?ncia ? compress?o dos corpos de prova diminuiu com o aumento da concentra??o de vermiculita, por?m ainda dentro da faixa permitida para cimenta??o de po?os de petr?leo. Os ensaios de consistometria indicaram que o tempo de pega para a pasta padr?o foi de 120 min, enquanto que para a pasta com 12% de vermiculita expandida foi de 98 min. Os ensaios de estabilidade e a avalia??o do comportamento reol?gico das pastas mostraram que a vermiculita expandida por absorver ?gua, aumenta a viscosidade da pasta, mesmo aumentando o fator ?gua-cimento. O ensaio de estabilidade realizado ? 133 ?F mostrou que n?o houve rebaixamento e nem sedimenta??o para a pasta com 12% de vermiculita expandida. Logo a adi??o de vermiculita expandida ? pasta cimentante favorece a cura r?pida e a baixa retra??o do volume da pasta durante a pega, importantes para evitar migra??o de g?s

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