894 resultados para Oxidação electroquímica
Resumo:
La red de trabajo formada por los profesores coordinadores de semestre y de titulación del Grado en Geología (Facultad de Ciencias, Universidad de Alicante) ha tenido como objetivos principales: afianzar la implementación de las enseñanzas conforme al contenido del plan de estudios del título verificado; elaborar planes de mejora para solventar las posibles deficiencias detectadas y colaborar con los instrumentos del Sistema de Garantía Interno de Calidad (SGIC) del centro en la elaboración de los informes de autoevaluación del título. El método de trabajo se basa en reuniones en las que los miembros de la red plantearán y debatirán los parámetros e indicadores de seguimiento de la red, en la que cada investigador (coordinador) aporta una investigación individualizada del semestre del que es responsable. Ante la inminente acreditación del título el próximo curso, buena parte de las tareas se han enfocado a colaborar en los informes de auto-evaluación del título y en los planes de mejora.
Resumo:
El presente proyecto se enmarca en el contexto del desarrollo de vectores de energía, particularmente aquellos destinados a almacenar la energía captada desde fuentes alternativas y sustentables, como son las energías eólica y solar, entre otras. Uno de los vectores de energía actualmente más importante lo constituyen las baterías de ión-Litio, las que por sus características de pequeño tamaño, alta densidad de energía y potencia, y larga ciclabilidad, son ampliamente utilizadas para alimentar todos los dispositivos electrónicos de pequeño tamaño (teléfonos móviles, notebooks, etc.). Este tipo de batería es, hasta el momento, la única que puede satisfacer la demanda de voltaje e intensidad de corriente, junto con bajo peso y volumen, del motor de un vehículo eléctrico, por lo que se espera un gran crecimiento de su demanda cuando comience la consolidación del mercado de este tipo de vehículos. Sin embargo, esto sólo será posible con importantes mejoras en los materiales activos que componen ambos electrodos, ánodo y cátodo, y/o con el desarrollo de nuevos materiales activos, que incrementen aun más la densidad de energía almacenada en dichas batería. En la Universidad Nacional de Córdoba hemos constituido un grupo de trabajo abocado a la investigación y desarrollo de materiales activos para ser utilizados como electrodos en este tipo de baterías, un área de investigación que concentra cada vez más la atención de científicos y tecnólogos en todo el mundo, particularmente, de países líderes del sector de electrónica y automotriz. Entre los objetivos del proyecto se pueden mencionar la intención de desarrollar capacidades científicas y técnicas en aspectos de investigación básica y tecnológica de sistemas electroquímicos de almacenamiento de energía, mediante la instalación de un laboratorio de síntesis, caracterización, investigación y ensayo de materiales activos para electrodos de baterías de ión-Litio. Específicamente, se llevará adelante la preparación y estudio electroquímico de materiales de ánodo en base a diferentes tipos de carbonos, de diferentes compuestos de titanatos de metales alcalinos, y de materiales de cátodo en base a diferentes tipos de compuestos de espinelas de fosfato de M-Litio, donde M puede ser Fe, Mn, Ni, Co o mezclas, y el ensayo posterior de celdas prototipo. La metodología de trabajo a aplicar es la del estado-del-arte a nivel mundial, que consiste en las etapas de síntesis, caracterización y estudio de funcionamiento de diferentes tipos de materiales activos para electrodos (ánodo o cátodo) de baterías de ión-Litio. Los procesos de síntesis comprenderán métodos por vía seca desde precursores adecuados (tratamientos térmicos) o por vía húmeda (hidrotermal, sol-gel). La caracterización física, química, estructural y morfológica abarcará la aplicación de técnicas de análisis de área específica y porosidad por método BET, microscopías SEM y TEM, análisis químico EDX, difracción de rayos X, espectroscopías XPS y Raman, y RMN, entre otras. Los estudios electroquímicos se llevarán a cabo utilizando técnicas potenciodinámicas, de multipulsos de potencial, galvanostáticas a diferentes densidades de corriente, espectroscopía de impedancia electroquímica y de ciclados de carga/descarga. Con la ejecución del proyecto se espera obtener materiales activos para electrodos de baterías de ión-Litio que cumplan con características tales como: alta capacidad de carga, adecuada densidad de potencia, alto grado de ciclabilidad, alto grado de seguridad, alta resistencia al envejecimiento, tanto estático como dinámico, y bajo costo del material. Teniendo en cuenta la inminente crisis en la producción mundial de combustibles fósiles líquidos, la necesidad de mudar la tecnología de vehículos actuales a la de vehículos eléctricos, y la disponibilidad nacional de recursos minerales de litio, la importancia del proyecto es directa para avanzar hacia un desarrollo tecnológico regional propio e independiente.
Resumo:
En Argentina, en consonancia con el resto del mundo, la Nanotecnología es considerada un área estratégica. Sin embargo, las investigaciones en Nanobiotecnología todavía constituyen un área de vacancia. El uso de nanomateriales para desarrollar plataformas bioanalíticas que permitan la construcción de biosensores ofrece múltiples ventajas y una promisoria perspectiva de aplicación en diversas áreas. En la actualidad, los laboratorios de análisis clínicos, la industria farmacéutica y alimentaria, y los laboratorios de control bromatológico y ambiental requieren de metodologías analíticas que proporcionen resultados exactos, reproducibles, rápidos, sensibles y selectivos empleando pequeños volúmenes de muestra, con un mínimo consumo de reactivos y una producción de deshechos limpia y escasa. Las investigaciones en nanobiosensores se encuentran dirigidas hacia el logro de estas metas. Uno de los grandes desafíos es lograr biosensores miniaturizados con potencialidad para el desarrollo de dispositivos de medición descentralizada (“point of care”) y la detección simultánea de multianalitos. Aún cuando se han hecho innumerables desarrollos en los casi 50 años de vida de los biosensores, todavía hay numerosos interrogantes por dilucidar. La modificación con nanomateriales juega un rol preponderante en los transductores tanto en los electroquímicos como en los plasmónicos. El uso de películas delgadas de Au para SPR modificadas con grafeno u óxido de grafeno, es un campo de una enorme potencialidad y sin embargo es muy poco explotado, por lo que reviste gran importancia. En lo referido a la capa de biorreconocimiento, se trabajará con moléculas capaces de establecer interacciones de bioafinidad, como los anticuerpos y también moléculas que son muy poco usadas en nuestro país y en Latinoamérica como ADN, aptámeros, PNA y lectinas. RESUMEN: El Objetivo general de este proyecto es desarrollar nuevas plataformas bioanalíticas para la detección de diferentes eventos de bioafinidad a partir de la integración de transductores electroquímicos (EQ) y plasmónicos con materiales nanoestructurados (nanotubos de carbono, nanoláminas de grafeno, nanoalambres metálicos); biomoléculas (ADN, “peptide nucleic acid” (PNA), aptámeros, anticuerpos, lectinas) y polímeros funcionalizados con moléculas bioactivas. Las arquitecturas supramoleculares resultantes estarán dirigidas al desarrollo de biosensores EQ y plasmónicos para la cuantificación de biomarcadores de relevancia clínica y medioambiental. Se funcionalizarán CNT, grafeno, óxido de grafeno, nanoalambres metálicos empleando homopéptidos y proteínas con alta afinidad por cationes metálicos, los que se integrarán a transductores de carbono y oro y biomoléculas de reconocimiento capaces de formar complejos de afinidad (antígeno-anticuerpo, aptámero-molécula blanco, ADN-ADN, PNA-ADN, lectinas-hidratos de carbono, ligandos-cationes metálicos y avidina-biotina). Se sintetizarán y caracterizarán nuevos monómeros y polímeros funcionalizados con moléculas bioactivas y/o grupos rédox empleando diferentes rutas sintéticas. Se desarrollarán genosensores para la detección del evento de hibridación de secuencias de interés médico (cáncer de colon y de mama, tuberculosis); aptasensores para la detección de marcadores proteicos de T. cruzi, enfermedades cardiovasculares y contaminantes catiónicos; inmunosensores para la detección de biomarcadores proteicos relacionados con enfermedades cardiovasculares y cáncer; y biosensores de afinidad con lectinas para la detección de hidratos de carbono. La caracterización de las plataformas y las señales analíticas se obtendrán empleando las siguientes técnicas: voltamperometrías cíclica, de pulso diferencial y de onda cuadrada; stripping; resonancia de plasmón superficial; espectroscopía de impedancia electroquímica; microscopías de barrido electroquímico, SEM, TEM, AFM,SNOM, espectroscopías: UV-vis, FTIR,Raman;RMN, TGA y DSC.
Resumo:
Os organismos vivos obtêm energia degradando moléculas orgânicas através da respiração celular. Esse processo pode ocorrer com ou sem consumo de oxigénio. Em muitos seres vivos com células complexas, a respiração celular ocorre com consumo de oxigénio pelo que se designa de respiração aeróbia. O consumo de oxigénio pode ser observado utilizando uma substância indicadora de presença/ausência de O2. O indicador utilizado neste experiencia foi o azul-de-metileno que muda de cor conforme está na forma reduzida ou na forma oxidada. Os resultados mostram que ocorreu a redução do azul-de-metileno, o que significa que o oxigénio foi consumido. O objetivo desta atividade é observar a mobilização de energia em bivalves (Scrobicularria plana) vulgarmente chamada de Lambujinha através do consumo de O2.
Resumo:
Tese de doutoramento, Química (Química Física), Universidade de Lisboa, Faculdade de Ciências, 2016
Resumo:
Os antioxidantes na dieta podem ter um papel importante na prevenção de algumas doenças crónicas em seres humanos resultantes da oxidação de lípidos e outros componentes celulares por radicais livres. Os mirtilos (Vaccinium sp.) são considerados, de entre os frutos frescos, uma das melhores fontes de antioxidantes. Neste trabalho foram estudados mirtilos Nothern Highbush, da cultivar Bluecrop colhidos no estado de maturação comercial em 5 localizações diferentes: Bouças -Sever do Vouga, Estarreja, Queirã – Vouzela, Oliveira do Hospital e Vila Verde. Foram avaliadas as características físico-químicas (ºbrix, acidez, humidade, calibre, firmeza, elasticidade e parâmetros colorimétricos) dos frutos. Para a determinação da composição fenólica e a atividade antioxidante os mirtilos foram submetidos a extrações sucessivas, com metanol (2x) e depois 2 vezes com uma solução aquosa de acetona (40% v/v), durante 1 h, com o auxílio de um banho de ultrassons. Os extratos obtidos foram utilizados para a determinação da composição fenólica (compostos fenólicos totais, antocianinas e taninos) e da capacidade antioxidante (utilizando os métodos ABTS, DPPH e FRAP). Foi ainda avaliada a influência da conservação durante 6 meses a -20ºC no teor de compostos fenólicos e capacidade antioxidante dos frutos. Pelos resultados obtidos, nos parâmetros de textura avaliados a amostra BBO revelou maior firmeza e elasticidade, e na avaliação da cor a amostra BES apresentou uma tonalidade azul mais acentuada. Os mirtilos provenientes de Estarreja eram os mais ricos em compostos fenólicos totais, em antocianinas e taninos, e que também apresentavam maior atividade antioxidante. O armazenamento durante 6 meses a -20ºC, originou diferenças significativas nas antocianinas e na atividade antioxidante. Em geral as amostras apresentavam diferenças significativas tanto nas suas propriedades físico-químicas, como na composição fenólica e na atividade antioxidante.
Resumo:
Mode of access: Internet.
Resumo:
Tesis doctoral Univ. Central, 1865.
Resumo:
In recent years, solid carriers suitable oxygen have been developed for use in different chemical processes recirculation. The success of this technology is directly related to the chemical reactivity and the oxygen storage capacity of the carrier. Thus, research into the development of new materials that can be applied to the process becomes extremely important. Possible candidates are the carriers based on nickel and copper for presenting favorable thermodynamic properties. In this work, aluminates type MAl2O4 (M = Mg and Ca) and M0,9B0,1Al2O4 (B = Ni and Cu) that are used as supports were synthesized by combustion reactions assisted by microwave and calcined at 900°C/2h. Then, the carriers were impregnated with 10% (m/m) of nickel or copper, and subsequently calcined at 600°C/2h to obtain the solid oxygen carriers, which were characterized by X-ray diffraction (XRD) Microscopy scanning electron microscopy (SEM) and temperature programmed reduction (TPR). Reactions simulating the combustion process by chemical recirculation were performed by cycles reduction/oxidation, in order to evaluate the reactivity of carriers. XRD analysis revealed diffraction peaks of the spinel type structures. In the doped substrates were verified the presence of secondary phases, suggesting that all the metal was incorporated into the spinel structure. In solid oxygen carriers, the NiO and CuO phases were observed after impregnation of active phases on different media. The results of evaluations of chemical cycles reduction/oxidation revealed that TSO's impregnated with nickel in various media were more active and are potential candidates for use in the chemical recirculation technology
Resumo:
Environmental liabilities from accidents in the retail petroleum industry, especially in urban areas, have represented a serious problem whose impact reaches the underground, people's health and even economic losses with the remediation process. In U.S.A. are estimated hundreds of billions of dollars invested in soil remediation processes. The results of the reports and investigative reports of liabilities in fuel stations distributed in the urban area of Natal-RN were used to estimate the local scenario of contamination. This database has been possible to determine the main contaminants (BTEX, PAHs, TOC), affected neighborhoods and types of potentially more impacted soils. Experiments were carried out in order to reverse contamination of this scenario, where the soil type was a factor in the planning, because it influences directly on the effectiveness of remediation techniques studied: Oxidation by hydrogen peroxide and oxidation by sodium persulphate. These oxidants are activated forming free radicals (HO•-, SO4 •-, HO2 • , O2 •-, S2O8 -2, etc) responsible for to mineralize the hydrocarbons and other organic compounds (releasing O2 e CO2). In the activation process, the ferrous ions (II) and ferric (III) were studied as well as hydrogen peroxide activation technique with sodium persulfate, the latter being presented the best efficiency among all the study, when activated with Fe+3. In addition to defining the most efficient technique, the aim of this study was to evaluate the influence of different soils among oxidative techniques, characterizing the effect of the concentration of these oxidants and also the concentration of the catalysts. Exists in most scenarios evaluated the presence of intrinsic total iron soil matrix. The so-called latosols present microaggregates reddish indicating the presence of these reactive species like iron and clayey aspect. The kinetic study was conducted by experimental design and monitoring of the percentage of total carbon (SSM-5000A) in the solid and liquid phases, knowing that 82.4% of the diesel molecule is carbon. Yet organic carbon and pH of liquid samples were analyzed for technical, characterizing the influence of soil type and its operating condition. The Fenton-like technique H2O2 e Fe+2 presented satisfactory oxidation, including sandy soil, but well below the best result. The sodium persulphate only activated with temperature, even in the most favorable soil, did not provide good efficiency. The best technique in the study had the concentration profile with 2,2x10- 1mol.L-1 of Na2S2O8 activated with 6,53x10-1mol.L-1 of H2O2 and 2,5x10-2 Fe3+mol.L-1 which reduced in less than a day 96 contamination in red soil, initially with 66,667 mg of diesel per kg of clean soil
Resumo:
The plant metabolism consists of a complex network of physical and chemical events resulting in photosynthesis, respiration, synthesis and degradation of organic compounds. This is only possible due to the different kinds of responses to many environmental variations that a plant could be subject through evolution, leading also to conquering new surroundings. The glyoxylate cycle is a metabolic pathway found in glyoxysomes plant, which has unique role in the seedling establishment. Considered as a variation of the citric acid cycle, it uses an acetyl coenzyme A molecule, derived from lipids beta-oxidation to synthesize compounds which are used in carbohydrate synthesis. The Malate synthase (MLS) and Isocitrate lyase (ICL) enzyme of this cycle are unique and essential in regulating the biosynthesis of carbohydrates. Because of the absence of decarboxylation steps as rate-limiting steps, detailed studies of molecular phylogeny and evolution of these proteins enables the elucidation of the effects of this route presence in the evolutionary processes involved in their distribution across the genome from different plant species. Therefore, the aim of this study was to establish a relationship between the molecular evolution of the characteristics of enzymes from the glyoxylate cycle (isocitrate lyase and malate synthase) and their molecular phylogeny, among green plants (Viridiplantae). For this, amino acid and nucleotide sequences were used, from online repositories as UniProt and Genbank. Sequences were aligned and then subjected to an analysis of the best-fit substitution models. The phylogeny was rebuilt by distance methods (neighbor-joining) and discrete methods (maximum likelihood, maximum parsimony and Bayesian analysis). The identification of structural patterns in the evolution of the enzymes was made through homology modeling and structure prediction from protein sequences. Based on comparative analyzes of in silico models and from the results of phylogenetic inferences, both enzymes show significant structure conservation and their topologies in agreement with two processes of selection and specialization of the genes. Thus, confirming the relevance of new studies to elucidate the plant metabolism from an evolutionary perspective
Resumo:
The contamination of water sources of public drinking by waste originated by anthropogenic activities has brought various risks to human health. Among the consequences of such activities can highlight the bloom of microalgae and cyanobacteria, which have the potential to produce toxins dangerous to humans, and the presence of humic substances that are generated by the decomposition of natural organic matter (NOM), such as vegetation. When found in water sources for public supply, present negative aspects conferring high color, odor and taste. The double filtration technology has good efficiency in water with the presence of cyanobacteria and different quality variations. Therefore, this study aimed to evaluate the behavior of the technique of double filtration with pre-oxidation for water purifiers the lagoon of Extremoz-RN, which currently has high concentrations of cyanobacteria. The research is summarized in four phases: the first phase turned to static tests in jarteste equipment in the laboratory and subsequent phases were tested in the Pilot Plant of Double Filtration. For the second and third stage filtration rates were tested filtration rates of 120 and 180 m3 / m2 .day for ascending boulders filters and 160 and 240 m3 / m2 .day in the filters in quick sand descendants. The last phase aimed to evaluate the double filtration with pre-oxidation. The results demonstrated that the system could produce double filtration in all trials of good quality water according to the Decree nº. 2914/11 of the Ministry of Health. The use of preoxidation favored the removal of microcystin and color at the end of the tests, reaching a percentage of color removal around 60%. The analysis of variance in the data, enabled prove that the filtration rates of 180 m3 / m2.d the gravel filter and 240 m3 /m2 .d in rapid filters, were the most significant for the removal of turbidity. The ascending filter of boulder 4 with particle size finer filter layer showed the best performance and the best means of turbidity and apparent color. The rapid filter downward 1 was more efficient in removing turbidity reaching removal about 100%
Resumo:
The preparation of nanostructured materials using natural clays as support, has been studied in literature under the same are found in nature and consequently, have a low price. Generally, clays serve as supports for metal oxides by increasing the number of active sites present on the surface and can be applied for various purposes such as adsorption, catalysis and photocatalysis. Some of the materials that are currently highlighted are niobium compounds, in particular, its oxides, by its characteristics such as high acidity, rigidity, water insolubility, oxidative and photocatalytic properties. In this scenario, the study aimed preparing a composite material oxyhydroxide niobium (NbO2OH) / sodium vermiculite clay and evaluate its effectiveness with respect to the natural clay (V0) and NbO2OH. The composite was prepared by precipitation-deposition method and then characterized by X-ray diffraction, infrared spectroscopy (XRD), energy dispersive X-ray (EDS), thermal analysis (TG/DTG), scanning electron microscopy (SEM), N2 adsorption-desorption and investigation of distribution of load. The application of the material NbO2OH/V0 was divided in two steps: first through oxidation and adsorption methods, and second through photocatalytic activity using solar irradiation. Studies of adsorption, oxidation and photocatalytic oxidation monitored the percentage of color removal from the dye methylene blue (MB) by UV-Vis spectroscopy. The XRD showed a decrease in reflection d (001) clay after modification; the FTIR indicated the presence of both the clay when the oxyhydroxide niobium to present bands in 1003 cm-1 related to Si-O stretching bands and 800 cm-1 to the Nb-O stretching. The presence of niobium was also confirmed by EDS indicated that 17 % by mass amount of the metal. Thermal analysis showed thermal stability of the composite at 217 °C and micrographs showed that there was a decrease in particle size. The investigation of the surface charge of NbO2OH/V0 found that the material exhibits a heterogeneous surface with average low and high negative charges. Adsorption tests showed that the composite NbO2OH/V0 higher adsorption capacity to remove 56 % of AM, while the material removed from V0 only 13 % showed no NbO2OH and adsorptive capacity due to the formation of H-aggregates. The percent removal of dye color for the oxidation tests showed little difference from the adsorption, being 18 and 66 % removal of dye color for V0 and NbO2OH/V0 respectively. The NbO2OH/V0 material shows excellent photocatalytic activity managing to remove just 95,5 % in 180 minutes of the color of MB compared to 41,4 % and 82,2 % of V0 the NbO2OH, proving the formation of a new composite with distinct properties of its precursors.
Resumo:
Heavy metals are present in industrial waste. These metals can generate a large environmental impact contaminating water, soil and plants. The chemical action of heavy metals has attracted environmental interest. In this context, this study aimed to test t he performance of electrochemical technologies for removing and quantifying heavy metals. First ly , the electroanalytical technique of stripping voltammetry with glassy carbon electrode (GC) was standardized in order to use this method for the quantificatio n of metals during their removal by electrocoagulation process (EC). A nalytical curves were evaluated to obtain reliability of the determin ation and quantification of Cd 2+ and Pb 2+ separately or in a mixture. Meanwhile , EC process was developed using an el ectrochemical cell in a continuous flow (EFC) for removing Pb 2+ and Cd 2+ . The se experiments were performed using Al parallel plates with 10 cm of diameter ( 63.5 cm 2 ) . The optimization of conditions for removing Pb 2+ and Cd 2+ , dissolved in 2 L of solution at 151 L h - 1 , were studied by applying different values of current for 30 min. Cd 2+ and Pb 2+ concentrations were monitored during electrolysis using stripping voltammetry. The results showed that the removal of Pb 2 + was effective when the EC pro cess is used, obtaining removals of 98% in 30 min. This behavior is dependent on the applied current, which implies an increase in power consumption. From the results also verified that the stripping voltammetry technique is quite reliable deter mining Pb 2+ concentration , when compared with the measurements obtained by atomic absorption method (AA). In view of this, t he second objective of this study was to evaluate the removal of Cd 2+ and Pb 2+ (mixture solution) by EC . Removal efficiency increasing current was confirmed when 93% and 100% of Cd 2+ and Pb 2+ was removed after 30 min . The increase in the current promotes the oxidation of sacrificial electrodes, and consequently increased amount of coagulant, which influences the removal of heavy metals in solution. Adsortive voltammetry is a fast, reliable, economical and simple way to determine Cd 2+ and Pb 2+ during their removal. I t is more economical than those normally used, which require the use of toxic and expensive reagents. Our results demonstrated the potential use of electroanalytical techniques to monitor the course of environmental interventions. Thus, the application of the two techniques associated can be a reliable way to monitor environmental impacts due to the pollution of aquatic ecosystems by heavy metals.
Resumo:
Conselho Nacional de Desenvolvimento Científico e Tecnológico - CNPq
