Obtenção de estruturas celulares de óxido de cério a partir de solução coloidal (gelcasting) e caracterização de sua microestrutura e atividade catalítica na combustão de metano

Senisse, Carolina Alves de Lima

January 2012

Este trabalho investigou a técnica de solução coloidal(gelcasting) em meio polimérico para a obtenção de partículas de óxido de cério, visando seu emprego como catalisadores na combustão do metano. A formulação do sistema coloidal foi baseada na hidrólise de sais, como acetilacetonato de cério e nitrato de cério em presença de aditivos tais como polivinilbutiral (PVB), polivinilpirrolidona (PVP) e polivinilacetato (PVA), nas concentrações de 5, 10 e 15%, em meio alcoólico ou aquoso. Essas soluções, contendo os íons de interesse, foram submetidas a um tratamento térmico a 650°C, por 30 minutos, com taxa de aquecimento de 2°C/min. Após o tratamento térmico, os produtos obtidos foram caracterizados quanto a sua morfologia, área superficial, cristalinidade, perda de massa e atividade catalítica. As amostras obtidas a partir de acetilacetonato de cério mostraram-se mais reativas do que as obtidas a partir de nitrato de cério na catálise da combustão do metano, pois apresentaram maiores conversões e atingiram maiores temperaturas durante o processo, o que é de extrema importância uma vez que a combustão catalítica do metano é utilizada para a geração de energia térmica. Durante o processo de combustão, utilizando-se as partículas obtidas a partir de acetilacetonato de cério, observou-se a liberação de grandes quantidades de compostos nitrogenados quando comparado aos resultados dos ensaios com as partículas obtidas com nitrato de cério. Após a combustão do metano, as amostras sofreram significativa alteração na área superficial, provavelmente devido à intensidade do calor liberado, o que deu origem a maior aglomeração dos particulados. / This study investigatedto obtainparticles ofcerium oxide, for use as catalysts for thecombustion of methaneusing the techniqueofthroughpolymericcolloidal solution (gelcasting).Obtaining thecolloidal systemisbased onhydrolysis ofsalts such asceriumacetylacetonate,cerium nitratein the presence ofadditives such aspolyvinylbutyral(PVB),polyvinylpyrrolidone (PVP) and polyvinyl acetate(PVA),at concentrations of 5, 10 and 15% inaqueousoralcoholic medium. Thesesolutions containingionsof interestwere subjected to aheat treatment at 650°C for30 minutes, with heating rate of2°C/min.After heat treatment, the fibers were characterized accordingto their morphology, surface area, crystallinity, weight loss andcatalytic activity. Samplesobtained fromceriumacetylacetonatewere morereactivethan theceriumnitrateto thecombustion of methane, as showed greaterconversions andhigher temperaturesreachedduring the process, which is of utmost importancesince thecombustioncatalyticmethaneis usedfor generatingthermal energy.Duringthe combustion processusing theobtained fromparticlesof ceriumacetylacetonate, there was the release of largequantities ofnitrogencomparedto the results ofassays withthe particles obtainedwithcerium nitrate.Afterthe reactionwith methane, the samples underwentsignificantchange insurface area, probably dueto the intensity of heat of this reaction, which helps to agglomerate the particles.

Óxido de cério

Combustão

Metano

Catalisadores

Cerium oxide

Catalyst

Colloidal system

Surface area

Obtenção de estruturas celulares de óxido de cério a partir de solução coloidal (gelcasting) e caracterização de sua microestrutura e atividade catalítica na combustão de metano

Senisse, Carolina Alves de Lima

January 2012

Este trabalho investigou a técnica de solução coloidal(gelcasting) em meio polimérico para a obtenção de partículas de óxido de cério, visando seu emprego como catalisadores na combustão do metano. A formulação do sistema coloidal foi baseada na hidrólise de sais, como acetilacetonato de cério e nitrato de cério em presença de aditivos tais como polivinilbutiral (PVB), polivinilpirrolidona (PVP) e polivinilacetato (PVA), nas concentrações de 5, 10 e 15%, em meio alcoólico ou aquoso. Essas soluções, contendo os íons de interesse, foram submetidas a um tratamento térmico a 650°C, por 30 minutos, com taxa de aquecimento de 2°C/min. Após o tratamento térmico, os produtos obtidos foram caracterizados quanto a sua morfologia, área superficial, cristalinidade, perda de massa e atividade catalítica. As amostras obtidas a partir de acetilacetonato de cério mostraram-se mais reativas do que as obtidas a partir de nitrato de cério na catálise da combustão do metano, pois apresentaram maiores conversões e atingiram maiores temperaturas durante o processo, o que é de extrema importância uma vez que a combustão catalítica do metano é utilizada para a geração de energia térmica. Durante o processo de combustão, utilizando-se as partículas obtidas a partir de acetilacetonato de cério, observou-se a liberação de grandes quantidades de compostos nitrogenados quando comparado aos resultados dos ensaios com as partículas obtidas com nitrato de cério. Após a combustão do metano, as amostras sofreram significativa alteração na área superficial, provavelmente devido à intensidade do calor liberado, o que deu origem a maior aglomeração dos particulados. / This study investigatedto obtainparticles ofcerium oxide, for use as catalysts for thecombustion of methaneusing the techniqueofthroughpolymericcolloidal solution (gelcasting).Obtaining thecolloidal systemisbased onhydrolysis ofsalts such asceriumacetylacetonate,cerium nitratein the presence ofadditives such aspolyvinylbutyral(PVB),polyvinylpyrrolidone (PVP) and polyvinyl acetate(PVA),at concentrations of 5, 10 and 15% inaqueousoralcoholic medium. Thesesolutions containingionsof interestwere subjected to aheat treatment at 650°C for30 minutes, with heating rate of2°C/min.After heat treatment, the fibers were characterized accordingto their morphology, surface area, crystallinity, weight loss andcatalytic activity. Samplesobtained fromceriumacetylacetonatewere morereactivethan theceriumnitrateto thecombustion of methane, as showed greaterconversions andhigher temperaturesreachedduring the process, which is of utmost importancesince thecombustioncatalyticmethaneis usedfor generatingthermal energy.Duringthe combustion processusing theobtained fromparticlesof ceriumacetylacetonate, there was the release of largequantities ofnitrogencomparedto the results ofassays withthe particles obtainedwithcerium nitrate.Afterthe reactionwith methane, the samples underwentsignificantchange insurface area, probably dueto the intensity of heat of this reaction, which helps to agglomerate the particles.

Óxido de cério

Combustão

Metano

Catalisadores

Cerium oxide

Catalyst

Colloidal system

Surface area

Molecular Dynamic Simulations of Diffusion and Phase Behaviors of Colloidal Particles in Two-Component Liquid Systems

January 2017

abstract: A comprehensive and systematic investigation on the diffusion and phase behaviors of nanoparticles and macromolecules in two component liquid-liquid systems via Molecule Dynamic (MD) simulations is presented in this dissertation. The interface of biphasic liquid systems has attracted great attention because it offers a simple, flexible, and highly reproducible template for the assembly of a variety of nanoscale objects. However, certain important fundamental issues at the interface have not been fully explored, especially when the size of the object is comparable with the liquid molecules. In the first MD simulation system, the diffusion and self-assembly of nanoparticles with different size, shape and surface composition were studied in an oil/water system. It has been found that a highly symmetrical nanoparticle with uniform surface (e.g. buckyball) can lead to a better-defined solvation shell which makes the “effective radius” of the nanoparticle larger than its own radius, and thus, lead to slower transport (diffusion) of the nanoparticles across the oil-water interface. Poly(N-isopropylacrylamide) (PNIPAM) is a thermoresponsive polymer with a Lower Critical Solution Temperature (LCST) of 32°C in pure water. It is one of the most widely studied stimulus-responsive polymers which can be fabricated into various forms of smart materials. However, current understanding about the diffusive and phase behaviors of PNIPAM in ionic liquids/water system is very limited. Therefore, two biphasic water-ionic liquids (ILs) systems were created to investigate the interfacial behavior of PNIPAM in such unique liquid-liquid interface. It was found the phase preference of PNIPAM below/above its LCST is dependent on the nature of ionic liquids. This potentially allows us to manipulate the interfacial behavior of macromolecules by tuning the properties of ionic liquids and minimizing the need for expensive polymer functionalization. In addition, to seek a more comprehensive understanding of the effects of ionic liquids on the phase behavior of PNIPAM, PNIPAM was studied in two miscible ionic liquids/water systems. The thermodynamic origin causes the reduction of LCST of PNIPAM in imidazolium based ionic liquids/water system was found. Energy analysis, hydrogen boding calculation and detailed structural quantification were presented in this study to support the conclusions. / Dissertation/Thesis / Doctoral Dissertation Chemical Engineering 2017

Chemical engineering

Colloidal System

Diffusion

Liquid-Liquid System

Molecular Dynamics Simulation

Nanoparticles

Obtenção de estruturas celulares de óxido de cério a partir de solução coloidal (gelcasting) e caracterização de sua microestrutura e atividade catalítica na combustão de metano

Senisse, Carolina Alves de Lima

January 2012

Este trabalho investigou a técnica de solução coloidal(gelcasting) em meio polimérico para a obtenção de partículas de óxido de cério, visando seu emprego como catalisadores na combustão do metano. A formulação do sistema coloidal foi baseada na hidrólise de sais, como acetilacetonato de cério e nitrato de cério em presença de aditivos tais como polivinilbutiral (PVB), polivinilpirrolidona (PVP) e polivinilacetato (PVA), nas concentrações de 5, 10 e 15%, em meio alcoólico ou aquoso. Essas soluções, contendo os íons de interesse, foram submetidas a um tratamento térmico a 650°C, por 30 minutos, com taxa de aquecimento de 2°C/min. Após o tratamento térmico, os produtos obtidos foram caracterizados quanto a sua morfologia, área superficial, cristalinidade, perda de massa e atividade catalítica. As amostras obtidas a partir de acetilacetonato de cério mostraram-se mais reativas do que as obtidas a partir de nitrato de cério na catálise da combustão do metano, pois apresentaram maiores conversões e atingiram maiores temperaturas durante o processo, o que é de extrema importância uma vez que a combustão catalítica do metano é utilizada para a geração de energia térmica. Durante o processo de combustão, utilizando-se as partículas obtidas a partir de acetilacetonato de cério, observou-se a liberação de grandes quantidades de compostos nitrogenados quando comparado aos resultados dos ensaios com as partículas obtidas com nitrato de cério. Após a combustão do metano, as amostras sofreram significativa alteração na área superficial, provavelmente devido à intensidade do calor liberado, o que deu origem a maior aglomeração dos particulados. / This study investigatedto obtainparticles ofcerium oxide, for use as catalysts for thecombustion of methaneusing the techniqueofthroughpolymericcolloidal solution (gelcasting).Obtaining thecolloidal systemisbased onhydrolysis ofsalts such asceriumacetylacetonate,cerium nitratein the presence ofadditives such aspolyvinylbutyral(PVB),polyvinylpyrrolidone (PVP) and polyvinyl acetate(PVA),at concentrations of 5, 10 and 15% inaqueousoralcoholic medium. Thesesolutions containingionsof interestwere subjected to aheat treatment at 650°C for30 minutes, with heating rate of2°C/min.After heat treatment, the fibers were characterized accordingto their morphology, surface area, crystallinity, weight loss andcatalytic activity. Samplesobtained fromceriumacetylacetonatewere morereactivethan theceriumnitrateto thecombustion of methane, as showed greaterconversions andhigher temperaturesreachedduring the process, which is of utmost importancesince thecombustioncatalyticmethaneis usedfor generatingthermal energy.Duringthe combustion processusing theobtained fromparticlesof ceriumacetylacetonate, there was the release of largequantities ofnitrogencomparedto the results ofassays withthe particles obtainedwithcerium nitrate.Afterthe reactionwith methane, the samples underwentsignificantchange insurface area, probably dueto the intensity of heat of this reaction, which helps to agglomerate the particles.

Óxido de cério

Combustão

Metano

Catalisadores

Cerium oxide

Catalyst

Colloidal system

Surface area

Incorporation of the antitumor drug miltefosine into polymeric micelles / Desenvolvimento de nanoestruturas poliméricas para encapsulação do antitumoral miltefosina

Feitosa, Valker Araujo

15 March 2019

Miltefosine (hexadecylphosphocholine, HePC), a synthetic antitumor designed from natural phospholipids, is clinically approved for cutaneous metastases of breast cancer and cutaneous lymphoma. This drug acts mainly at cellular membrane level, where it accumulates and interferes with lipid metabolism and lipid-dependent signaling pathways leading the cells to apoptosis. However, HePC systemic and peroral administration induces hemolysis and mucosal toxicity, respectively. To overcome these limitations, we investigated the protective properties of colloidal polymeric micelles (PM) composed by Pluronics, triblock copolymers of poly(ethylene oxide) and poly(propylene oxide). We found that both Pluronic composition and concentration modulate the hemolytic profile of incorporated drug (HePC-PM) by increasing the drug amount to cause in vitro hemolysis. Moreover, small-angle X-ray scattering (SAXS) was used to assess structural information of interactions between HePC and PM. Additionally, we showed that HePC-PM prevented mucosal irritation, decreasing bleeding and lysis of blood vessels in a chicken chorioallantoic membrane model. Interestingly, HePC-PM increased the in vitro selective cytotoxicity against cervix tumor cells rather healthy fibroblasts, suggesting a differential uptake of these nanostructures by tumor cells. Furthermore, we also found that HePC induces cytotoxicity and decrease cell survival, migration and proliferation in osteosarcoma cells in vitro. We showed that cytotoxicity by HePC is associated with caspase-3 activation, DNA fragmentation, apoptotic-like bodys formation and inhibition of both constitutive and cytokine-stimulated Akt/PKB phosphorylation. HePC-PM clearly reduces the drug cytotoxic effects. Finally, we demonstrated that Pluronic F127 polymeric micelles are efficient for cargo delivering the encapsulated drug preferentially into tumor cells rather than healthy cells. These findings together suggest that Pluronic F127 PM reduce drug side effects and provide a potential alternative for systemic delivery of HePC, as well as other amphiphilic drugs. / Miltefosina (hexadecilfosfocolina, HePC), um fármaco antitumoral sintético desenvolvido a partir de fosfolipídios naturais, é clinicamente aprovada para o tratamento tópico de metástases de câncer de mama e linfomas cutâneos. Atua principalmente nas membranas celulares, onde se acumula e interfere no metabolismo lipídico e nas vias de sinalização dependentes de lipídios levando as células à apoptose. No entanto, quando administrada sistemicamente ou oralmente a HePC induz hemólise e toxicidade de mucosas, respectivamente. Para superar estas reações adversas investigamos os efeitos protetores conferidos por micelas poliméricas coloidais (PM) compostas por Pluronics, copolímeros tribloco de poli(óxido de etileno) e poli(óxido de propileno). Inicialmente, encontramos que a composição e concentração do Pluronic modulam o perfil hemolítico do fármaco encapsulado (HePC-PM), aumentando a quantidade necessária de HePC para causar hemólise in vitro. Além disso, utilizamos o espalhamento de raios-X a baixo ângulo (SAXS) para obter informações estruturais das interações entre HePC e PM. Em seguida, mostramos que HePC-PM preveniu a irritação da mucosa, diminuindo a hemorragia e a vasoconstricção em membrana corioalantóica de ovos embrionados. Estudos in vitro demonstraram que a HePC-PM aumentou seletivamente a citotoxicidade contra células de carcinoma HeLa em relação a fibroblastos saudáveis, sugerindo captação diferencial dessas nanoestruturas pelas células tumorais. Além disso, relatamos que, in vitro, a HePC induz citotoxicidade, diminui a sobrevivência, migração e proliferação osteossarcomas. Esta citotoxicidade está associada à ativação da caspase-3, fragmentação do DNA, formação de corpos apoptóticos e inibição da fosforilação de Akt/PKB. Adicionalmente, HePC-PM reduz os efeitos citotóxicos nestas linhagens. Finalmente, demonstramos que as micelas poliméricas de Pluronic F127 são eficientes para a entrega intracelular fármacos preferencialmente em células tumorais, e em menor grau em células saudáveis. Em conjunto, os dados sugerem que este sistema nanoestruturado reduz a toxicidade da HePC e representa uma alternativa potencial para a administração sistêmica deste e de outros fármacos anfifílicos.

Alkylphosphocholines

Alkylphospholipids

Alquilfosfocolinas

Alquilfosfolipídios

Colloidal system

Drug-delivery systems

Nanoestrutures

Nanoesturutras

Poloxamer

Poloxamer

Sistemas coloidais

Sistemas para entrega de fármacos

Collective Behaviour of Confined Equilibrium And Non Equilibrium Soft Matter Systems

Banerjee, Rajarshi

January 2016

Due to their diversity, soft matter systems provide a convenient platform to study a variety of physical phenomena like phase transitions and collective motion. Encompassing a wide range of equilibrium and non-equilibrium systems, they often provide significant insight into the statistical mechanics of different kinds of many-body systems. Though large scale properties of such systems are of fundamental interest in their own accord, since most experimental realizations of soft matter systems are finite sized, there is a growing need to understand the effects of confinement or boundary conditions on the collective behaviour of such systems. The primary purpose of this thesis is to study the effects of boundary conditions or confinement on both equilibrium and non-equilibrium soft matter systems via theoretical modelling. For equilibrium systems we have studied a system of colloidal particles in harmonic confinement, and for non-equilibrium systems we consider a system of self-propelled rods in both harmonic and hard wall confinement. In Chapter 1 we first lay down some basic concepts of stochastic dynamics and Brownian motion, before discussing some of the recent results on confinement effects on colloidal systems, showing how the properties of a finite sized colloidal system can be very different from those of large, un confined systems. Thereafter turning to non-equilibrium active systems, we discuss various fundamental problems posed by these systems due to their unique ability to generate and dissipate energy on their own. We also point out some instances of observed confinement effects in such systems, such as boundary aggregation and transient hedgehog-like clusters near the boundary. Chapter 2 deals with the effect of harmonic confinement on a finite sized colloidal assembly, where we show that such finite size effects coupled with a confining potential can give rise to special features like initial position dependent expulsion of dopant particles. First we model experimentally studied small two-dimensional colloidal assemblies trapped by a defocussed laser beam by Langevin dynamics simulations in the presence of harmonic confinement and demonstrate how the system shows a crossover from liquid state to crystalline state as a function of the stiffness of the confinement. We also show that in the crystalline state the system can be effectively modelled as a rigid body under small force perturbations. Notably, while studying the dynamics of a defect particle inside these crystallites, we found evidence for the occurrence of self purification by the crystallites. In this process, a dopant is spontaneously expelled out of the crystallite. Surprisingly, this phenomena has a strong dependence on the initial position of the dopant, which turns out to be the consequence of the non monotonic spatial variation of the free energy of the system as a function of the dopant position. This is caused by a difference in the rate of change of internal energy and entropy with the dopant position, with the entropy decreasing faster when the dopant is closer to the centre. This can be attributed to the amount of disruption of crystalline order in the assembly due to the incommensurate dimensions of the defect particle. In order to put these results in a general perspective, we verify in the last part of this chapter that the presence of this free energy barrier is independent of the exact functional forms of the confining potential and the interaction of a defect particle with the host particles, as well as the shape and size of the defect particle. Moving to non-equilibrium systems, we consider, in Chapter 3, the effect of harmonic and hard wall confinement on a two-dimensional system of self-propelled rods (SPRs). Though there have been very limited studies of confinement effects on such systems, existing studies are adequate to show that their behaviour near a boundary wall can be very different, e.g. formation of hedgehog like clusters near a boundary wall. First we show that for harmonic confinement small systems show polar order, which decays with system size, eventually going away for large systems. But the effect of hard wall confinement turns out to be rather different, where the system shows isotropic and clustered states depending on the values of activity and density. We construct a complete activity-density phase diagram showing four distinct phases. For high density and high activity, the rods spontaneously arrange themselves into a stable vortex structure in which the rods exhibit global radial polar order. Surprisingly this order does not decay with system size: the radial orientation of the rods exhibit strong spatial correlation even in large systems, ruling out the possibility that the radial order is a finite-size effect. Using other geometrical shapes of the hard wall boundary, we confirm this phase to be independent of the shape of the boundary. We also demonstrate how small modifications of the boundary conditions at the hard wall can collapse the clustered and vortex phases to a global flocking phase similar to that found in earlier studies of hydrodynamic active particles under confinement. Based on these observations, we conclude that the bulk of the system is strongly affected by the subjected boundary condition, which is rather unusual for large systems. In Chapter 4 this thesis concludes with a summary of the main results and suggestions for future work along similar lines

Phase Transformation

Equilibrium Soft Matter

Soft Condensed Matter

Non Equilibrium Soft Matter

Colloidal System Confinement

Self-Propelled Rod Confinement

Confined Soft Matter

Soft Matter Systems

Condensed Matter

Harmonic trap

Physics