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1	Stationary-phase contributions to surface diffusion at C8-modified silica mesopores Rybka, Julia, Höltzel, Alexandra, Trebel, Nicole, Tallarek, Ulrich 05 March 2020 (has links) The structure, dynamics, and mobility of binary solvents and solute molecules at adsorbent surfaces play an important role in adsorption, catalysis, and separation. When investigating chemical systems, information gained by experimental data is often limited to the macroscopic view. Molecular dynamics (MD) simulations allow new insights on molecular processes and offer the possibility to study the molecular-level picture at solid-liquid interfaces in detail. diffusion, silica mesopores info:eu-repo/classification/ddc/530 ddc:530
2	INVESTIGATION OF THE ASSEMBLY OF SURFACTANTS AT THE SOLID-LIQID INTERFACE FOR ADSORPTION AND MATERIALS APPLICATIONS Xing, Rong 01 January 2007 (has links) This dissertation addresses two topics associated with the assembly of surfactants at the solid-liquid interface for adsorption and materials synthesis. The first is the adsorption of an anionic fluorinated surfactant, tetraethylammonium perfluorooctylsulfonate (TEA-FOS), at the solid/liquid interface. Attenuated total reflection Fourier transform infrared spectroscopy is used to study the adsorption kinetics and average orientation of surfactants at the hydroxylated germanium surface. Atomic force microscopy provides complementary images of the adsorbed layer structure on mica. The adsorption follows unusual three-stage kinetics in which the rate of adsorption starts fast, slows as the surface becomes crowded, and then (surprisingly) accelerates due to nucleation of a heterogeneous multilayer structure. These fast-slow-fast three stage adsorption kinetics are observed for a wide range of concentrations at pH 6, and the rates of the three stages are modulated by pH and salt by tuning electrostatic interactions among surfactants, counterions, and the surface. The results suggest that tetraethylammonium mediates interactions between surfactants and with negatively charged surfaces. The dichroism measurements and AFM are consistent with a mechanism in which TEA-FOS first forms an incomplete layer with chains oriented randomly or somewhat parallel to the surface, followed by formation of flattened multilayer clusters with the chains oriented somewhat normal to the substrate. The second topic is the sol-gel synthesis of mesoporous silica materials using dual surfactant templates. Studies of templating with mixed cetyltrimethylammonium bromide and octyl-beta-D-glucopyranoside surfactants shows that the ternary phase diagram of surfactants in water can be used to predict mesoporous materials structure, and that vapor-phase ammonia treatments can either stabilize the structure or induce swelling by the Maillard reaction. Studies of sol-gel reaction-induced precipitation with demixed hydrocarbon and fluorocarbon cationic surfactant micelles show a wide variety of pore structures. A number of synthesis parameters are adjusted to tune the pore structure, for instance to adjust the size and populations of bimodal mesopores. Selective swelling of the two surfactants by liphophilic and fluorophilic solvents is observed. Finally, proteinaccessible hollow spherical silica particles with mesoporous shells are reported. The methods for engineering mesoporous materials reported here have potential applications in adsorption, controlled drug delivery and for catalysis.
3	Contribution of mesopores of hierarchically structured titanium silicalite-1 to the catalytic activity towards the methyl oleate epoxidation Dvoyashkin, Muslim, Möllmer, Jens, Gläser, Roger 12 July 2022 (has links) No description available. info:eu-repo/classification/ddc/540 ddc:540
4	Theoretical and numerical calculations for the dynamics of colloidal suspensions of molecular particles in flowing solution inside mesopores Atwi, Ali 02 May 2012 (has links) (PDF) The purpose of this thesis is to develop a comprehensive model analysis in a three-dimensional spatial frame for the dynamics of molecular particles in dilute colloidal suspensions in solutions flowing inside pores of variable width, subject to hydrodynamic forces, Brownian motion and diffusive collisions at the rough pore boundaries, by using numerical simulations. The approach by simulations is necessary because it is extremely complex to use analytical tools at present to deal with the problem of diffusive collisions of the particles at the solid pore boundaries. The algorithms which we have developed and the corresponding simulations are sufficiently general and refined to be directly applied to the study of the dynamics of a wide variety of polymer and biological particles in dilute solutions under diverse physical and applicable hydrodynamic conditions inside pores. Moreover, the mechanisms leading to the adhesion of particles of nano sizes under what would be non-equilibrium conditions, due to the conflicting influence of the mechanical diffusive collisions and the attractive Hamaker forces at the boundaries, are of major interest. We have hence investigated a theoretical model to calculate the restitution coefficient from basic physical principles. The objective is to quantify the energy balance during the process of a diffusive collision of a nano particle under the influence of the repulsive forces on one hand, and the attractive Hamaker forces acting on the nano particle on the other. This is done by developing a model, based on the JKR and Hertz theories, to account for the energy losses during collisions, and for the energy gains due to the Hamaker interactions. Adhesion becomes an outcome if the energy balance permits this. Our theoretical model is developed by proposing a special analytic approach based on the Hamaker potential. We derive from the theoretical analysis a characteristic nonlinear equation for the restitution coefficient, and analyze its properties which determine under given physical conditions the outcome for adhesion or not. Numerical simulation Colloidal suspensions Probability Distribution Functions Diffusive collision Hamaker interactions Mesopores
5	S?ntese, caracteriza??o e aplica??o de MCM-41 funcionalizado com diisopropilamina no processo de adsor??o do di?xido de carbono Barbosa, Marcela Nascimento 12 August 2009 (has links) Made available in DSpace on 2014-12-17T15:41:45Z (GMT). No. of bitstreams: 1 MarcelaNBpdf.pdf: 2700913 bytes, checksum: 95100e939e95f8047d0ef3d50eb366ab (MD5) Previous issue date: 2009-08-12 / Conselho Nacional de Desenvolvimento Cient?fico e Tecnol?gico / Emissions of CO2 in the atmosphere have increased successively by various mechanisms caused by human action, especially as fossil fuel combustion and industrial chemical processes. This leads to the increase in average temperature in the atmosphere, which we call global warming. The search for new technologies to minimize environmental impacts arising from this phenomenon has been investigated. The capture of CO2 is one of the alternatives that can help reduce emis ions of greenhouse gases. The CO2 can be captured through the process of selective adsorption using adsorbents for this purpose. Were synthesized by hydrothermal method, materials of the type MCM-41 and Al-MCM-41 in the molar ratio Si / Al equal to 50. The synthesis of gels were prepared from a source of silicon, sodium, water and aluminum in the case of Al-MCM-41. The period of synthesis of the materials was 5 days in autoclave at 100?C. After that time materials were filtered, washed and dried in greenhouse at 100 ? C for 4 hours and then calcined at 450 ? C. Then the calcined material was functionalized with the Di-isopropylamine (DIPA) by the method of wet impregnation. We used 0.5 g of material mesopores to 3.5 mL of DIPA. The materials were functionalized in a closed container for 24 hours, and after this period were dried at brackground temperature for 2 hours. Were subsequently subjected to heat treatment at 250?C for 1 hour. These materials were used for the adsorption of CO2 and were characterized by XRD, FT-IR, BET / BJH, SEM, EDX and TG / DTG. Tests of adsorption of CO2 was carried out under the following conditions: 100 mg of adsorbent, temperature of 75?C under flow of 100 mL/min of CO2 for 2 hours. The desorption of CO2 was carried out by thermogravimetry from ambient temperature to 900?C under flow of 25 mL min of He and a ratio of 10?C/min. The difratogramas X-ray for the synthesized samples showed the characteristic peaks of MCM-41, showing that the structure of it was obtained. For samples functionalized there was a decrease of the intensities of these peaks, with a consequent reduction in the structural ordering of the material. However, the structure was preserved mesopores. The adsorption tests showed that the functionalized MCM-41 is presented as a material promising adsorbent, for CO2 capture, with a loss of mass on the desorption CO2 of 7,52%, while that in Al-MCM- 41 functionalized showed no such loss / As emiss?es de CO2 na atmosfera v?m aumentando sucessivamente devido a v?rios mecanismos provocados pela a??o humana, principalmente como a queima de combust?veis f?sseis e processos qu?micos industriais. Isso leva ao aumento da temperatura m?dia na atmosfera, a qual chamamos de aquecimento global. A busca por novas tecnologias para minimizar os impactos ambientais decorrentes deste fen?meno tem sido investigadas. A captura de CO2 ? uma das alternativas que podem ajudar a diminuir as emiss?es desses gases. O CO2 pode ser capturado atrav?s do processo de adsor??o utilizando adsorventes seletivos para este fim. Foram sintetizados pelo m?todo hidrot?rmico, materiais do tipo MCM-41 e Al- MCM-41 na raz?o molar Si/Al igual a 50. Os g?is de s?nteses foram preparados partindo deuma fonte de sil?cio, s?dio, ?gua destilada e alum?nio no caso do Al-MCM-41. O per?odo de s?ntese dos materiais foi de 5 dias em autoclave a 100?C. Ap?s esse tempo os materiais foram filtrados, lavados e secos em estufa a 100?C durante 4 horas, e posteriormente calcinados a 450?C. Em seguida os materiais calcinados foram funcionalizados com a Di-iso-propilamina (DIPA) atrav?s do m?todo de impregna??o por via ?mida. Foi utilizado 0,5 g de material mesoporoso para 3 mL de DIPA. Os materiais funcionalizados ficaram em um recipiente fechado durante 24 horas, e ap?s esse per?odo foram secos em temperatura ambiente durante 2 horas. Posteriormente foram submetidos a um tratamento t?rmico a 250?C durante 1 hora. Estes materiais foram utilizados para o processo de adsor??o de CO2 e foram caracterizados por DRX, FT-IR, BET/BJH, MEV, EDX e TG/DTG. Os ensaios de adsor??o de CO2 foram realizados nas seguintes condi??es: 100 mg de adsorvente, temperatura de 75?C sob fluxo de 100 mL/min de CO2 durante 2 horas. A dessor??o do CO2 foi realizada atrav?s da termogravimetria, da temperatura ambiente at? 900?C, sob fluxo de 25 mL/min de He e uma raz?o de 10?C/min. Os difratogramas de raios-X para as amostras sintetizadas apresentaram os picos caracter?sticos do MCM-41, evidenciando que a estrutura do mesmo foi obtida. Para as amostras funcionalizadas observou-se uma diminui??o das intensidades desses picos, consequentemente, uma diminui??o do ordenamento estrutural do material. No entanto, a estrutura mesoporosa foi preservada. Os testes de adsor??o mostraram que o MCM-41 funcionalizado se apresentou como um material adsorvente promissor, para captura de CO2, com uma perda de massa referente ? dessor??o do CO2 de 7,52 %, enquanto que no Al-MCM- 41 funcionalizado n?o apresentou essa perda Adsor??o de CO2 Peneiras moleculares mesoporosas Amina Adsorption of CO2 Mesopores molecular sieves Amine
6	Zéolitas ZSM-12 mesoporosas textura, cristalinidade e atividade ácida para o craqueamento de cicloexano Carvalho, Kele Tatiane Gomes 12 September 2013 (has links) Made available in DSpace on 2016-06-02T19:55:38Z (GMT). No. of bitstreams: 1 5665.pdf: 8947970 bytes, checksum: 3a1ee8be44b336d4926a11f4c9cc20eb (MD5) Previous issue date: 2013-09-12 / Universidade Federal de Sao Carlos / The research addressed the generation of mesoporosity in the zeolite ZSM-12 (MTW). In the first part we studied the synthesis of ZSM-12 via conventional methodology and in the presence of a mesopore directing agent, organosilane [3-(Trimethoxy-silyl)propyl] octadecyldimethylammonium chloride (TPOAC). It was verified to influence the TPOAC/SiO2 and H2O/SiO2 ratios and, also the aging of the reaction mixture, temperature and time of the hydrothermal treatment. In the second part we studied the formation of mesoporosity by post-synthesis treatment with alkaline solution (NaOH). For optimization of such treatment the concentration of the NaOH solution and the temperature were varied. The zeolites were characterized by X-ray diffraction, chemical analysis by energy-dispersive X-ray spectroscopy, N2 adsorption/desorption, scanning electron microscopy, nuclear magnetic resonance of 27Al, and temperature-programmed desorption of ammonia. By the analyses of X-ray diffraction and Rietveld refinement, we verified a decrease in crystallization kinetics with increasing TPOAC/SiO2 ratio and a tendency for simultaneous crystallization of MFI and MTW phases with increasing H2O/SiO2 ratio, temperature and aging time. It was possible to obtain mesoporous ZSM-12 with high purity and crystallinity with only small quantities of TPOAC and relatively long crystallization times. For ZSM-12 zeolites treated in basic medium, there was the formation of mesopores in the range from 2.9 to 23 nm due to the silicon extraction from the crystalline framework, which caused a decrease in the volume of micropores and an increase in the total acidity, assigned to the decrease in Si/Al ratio. In the cracking of cyclohexane at 400 °C, although the presence of mesoporosity had caused a decrease in the total acidity, the zeolites synthesized with TPOAC showed similar conversions to conventional zeolite with minimal catalytic deactivation, which was attributed to the better mass transfer and less coke formation. The ZSM-12 zeolites treated with NaOH exhibited activity and stability similar to those obtained in the presence of TPOAC. By its higher proportion of strong acid sites, the conventional ZSM-12 zeolite showed higher hydrocarbon yields in the range from C2 to C4 in comparison with the mesoporous zeolites, with the latter showing a higher yield for C6 hydrocarbons. / A pesquisa abordou a geração de mesoporosidade na zeólita ZSM-12 (MTW). Numa primeira parte estudou-se a síntese da ZSM-12 via metodologia convencional (hidrotérmica) e na presença de um agente direcionador de mesoporos, o organossilano cloreto de 3-(trimetoxi-silil)propil-octadecildimetil amônio (TPOAC). Verificou-se a influência das razões TPOAC/SiO2 e H2O/SiO2 e, também, da temperatura, tempo de envelhecimento da mistura reacional e tempo de tratamento hidrotérmico. Na segunda parte estudou-se a formação de mesoporosidade por tratamento pós-síntese com solução alcalina (NaOH). Para a otimização desse tratamento, variou-se a concentração da solução de NaOH e a temperatura. As zeólitas obtidas foram caracterizadas por difratometria de raios X, análise química por espectroscopia de energia dispersiva de raios X, fisissorção de N2, microscopia eletrônica de varredura, ressonância magnética nuclear do 27Al e dessorção de amônia à temperatura programada. Pelas análises de difratometria de raios X e refinamento de Rietveld, verificou-se um decréscimo da cinética de cristalização com o aumento da razão TPOAC/SiO2 e uma tendência à cristalização simultânea das fases MTW e MFI com o aumento da razão H2O/SiO2, da temperatura e do tempo de envelhecimento. Foi possível obter ZSM-12 mesoporosa com alta pureza e cristalinidade somente com pequenas quantidades de TPOAC e tempos de cristalização relativamente longos. Para as zeólitas ZSM-12 tratadas em meio básico, houve a formação de mesoporos na faixa de 2,9 a 23 nm devido à extração de silício da rede cristalina, o que provocou uma diminuição do volume de microporos e um aumento da acidez total pela diminuição da razão Si/Al. No craqueamento de cicloexano em fase gasosa a 400 °C, as zeólitas sintetizadas com TPAOC, embora a presença de mesoporosidade tenha provocado uma diminuição na acidez total, apresentaram conversões semelhantes às da zeólita convencional com mínima desativação catalítica, o que foi atribuído à boa transferência de massa e menor formação de coque. As zeólitas ZSM-12 tratadas com NaOH exibiram atividade e estabilidade similares às obtidas na presença de TPOAC. Pela sua maior proporção de sítios ácidos fortes, a zeólita ZSM-12 convencional apresentou rendimentos maiores a hidrocarbonetos C2 a C4 do que as zeólitas contendo mesoporos, com estas últimas apresentando maior rendimento a hidrocarbonetos C6. Catálise Craqueamento catalítico Zeólita ZSM-12 Síntese hidrotérmica Geração de mesoporos ZSM-12 zeolite Mesopores generation Catalytic cracking ENGENHARIAS::ENGENHARIA QUIMICA
7	Non-Oxide Porous Ceramics from Polymer Precursor Yang, Xueping 01 January 2014 (has links) Non-oxide porous ceramics exhibit many unique and superior properties, such as better high-temperature stability, improved chemical inertness/corrosive resistance, as well as wide band-gap semiconducting behavior, which lead to numerous potential applications in catalysis, high temperature electronic and photonic devices, and micro-electromechanical systems. Currently, most mesoporous non-oxide ceramics (e.g. SiC) are formed by two-step templating methods, which are hard to adjust the pore sizes, and require a harmful etching step or a high temperature treatment to remove the templates. In this dissertation, we report a novel technique for synthesizing hierarchically mesoporous non-oxide SiC ceramic from a block copolymer precursor. The copolymer precursors with vairing block length were synthesized by reversible addition fragmentation chain transfer polymerization. The block copolymers self-assemble into nano-scaled micelles with a core-shell structure in toluene. With different operation processes, hollow SiC nanospheres and bulk mesoporous SiC ceramics were synthesized after the subsequent pyrolysis of precorsur micelles. The resultant SiC ceramics have potential applications in catalysis, solar cells, separation, and purification processes.The polymer synthesis and pyrolysis process will investigated by NMR, FTIR, GPC, TEM, and TGA/DSC. The morphology and structure of synthesised SiC hollow spheres and mesoporous ceramics were analyzed by SEM, TGA/DSC and BET/BJH analysis. Besides forming core shell micelles in selective solvent Toluene, we found that PVSZ-b-PS could also exhibit this property in the air water interface. By inducing the Langmuir-Blodgett deposition, a precursor monolayer with homogeously distributed povinylsilazane particles deposited on silicon wafer synthesized by spreading the diblock copolymer PVSZ-b-PS in the air water interface. After the pyrolysis process, orderly arranging SiC nano particles formed from the polymer precursor monolayer doped on the surface of silicon wafer, which shows great potential as an optoelectronic material. The deposition process and the relationship between compress pressure and monolayer morphology were studies, and the structure of monolayer and SiC dots were investigated by AFM, SEM. Non oxide ceramics diblock copolymer polymer derived ceramics hierarchical mesopores hollow nanospheres ceramic thin film Engineering Materials Science and Engineering
8	Theoretical and numerical calculations for the dynamics of colloidal suspensions of molecular particles in flowing solution inside mesopores / Modélisation théorique et numérique de la dynamique de particules macromoléculaires en écoulement dans des systèmes méso-poreux Atwi, Ali 02 May 2012 (has links) Les objectifs de cette thèse visent le développement d’un traitement inédit dans un repère spatiale tridimensionnel, pour le problème de la dynamique de collisions diffusives d’objets macromoléculaires en solution en écoulement hydrodynamique à l'intérieur des pores de largeur variable, soumis aux forces hydrodynamiques, du mouvement brownien et des collisions diffusifs aux parois des pores, en utilisant la modélisation théorique et les simulations numériques. L’approche par simulation numérique est nécessaire car il est extrêmement complexe d’utiliser des outils analytiques à présent pour traiter le problème de ces collisions diffusives aux parois solides. Les algorithmes que nous avons développés et les simulations correspondantes sont suffisamment généraux et avancés pour être directement appliquée à l'étude de la dynamique d'une grande variété de polymère et des particules biologiques dans des solutions diluées sous diverses conditions physiques et hydrodynamiques à l'intérieur des pores. Par ailleurs, les mécanismes conduisant à l'adhésion de nano particules et de particules macromoléculaires sous conditions de non-équilibre, en raison de l'influence contradictoire des collisions mécaniques diffusifs et les forces attractives de Hamaker aux parois solides, sont d'un intérêt majeur. Nous avons donc développé un modèle théorique pour calculer le coefficient de restitution. L'objectif est de quantifier le bilan énergétique pendant le processus de collision diffusive de ces particules aux parois, sous l'influence des forces de répulsion d'une part et les forces attractives de Hamaker. Cela se fait par l'élaboration d'un modèle, basé sur le JKR et les théories d’Hertz, pour tenir compte des pertes d'énergie lors des collisions et des gains d'énergie en raison des interactions Hamaker. L’adhésion arrive si le bilan énergétique le permet. Notre modèle théorique est développé en proposant une approche particulière basée sur le potentiel Hamaker. Nous démontrons ce bilan par le biais d'une équation caractéristique non linéaire pour le coefficient de restitution, et analysons ses propriétés qui déterminent l'adhésion ou non pour diverses conditions physiques initiales. / The purpose of this thesis is to develop a comprehensive model analysis in a three-dimensional spatial frame for the dynamics of molecular particles in dilute colloidal suspensions in solutions flowing inside pores of variable width, subject to hydrodynamic forces, Brownian motion and diffusive collisions at the rough pore boundaries, by using numerical simulations. The approach by simulations is necessary because it is extremely complex to use analytical tools at present to deal with the problem of diffusive collisions of the particles at the solid pore boundaries. The algorithms which we have developed and the corresponding simulations are sufficiently general and refined to be directly applied to the study of the dynamics of a wide variety of polymer and biological particles in dilute solutions under diverse physical and applicable hydrodynamic conditions inside pores. Moreover, the mechanisms leading to the adhesion of particles of nano sizes under what would be non-equilibrium conditions, due to the conflicting influence of the mechanical diffusive collisions and the attractive Hamaker forces at the boundaries, are of major interest. We have hence investigated a theoretical model to calculate the restitution coefficient from basic physical principles. The objective is to quantify the energy balance during the process of a diffusive collision of a nano particle under the influence of the repulsive forces on one hand, and the attractive Hamaker forces acting on the nano particle on the other. This is done by developing a model, based on the JKR and Hertz theories, to account for the energy losses during collisions, and for the energy gains due to the Hamaker interactions. Adhesion becomes an outcome if the energy balance permits this. Our theoretical model is developed by proposing a special analytic approach based on the Hamaker potential. We derive from the theoretical analysis a characteristic nonlinear equation for the restitution coefficient, and analyze its properties which determine under given physical conditions the outcome for adhesion or not. Simulation numérique Solutions colloïdales Collisions mécaniques diffusives Interactions Hamaker Matériaux mésoporeux Numerical simulation Colloidal suspensions Probability Distribution Functions Diffusive collision Hamaker interactions Mesopores
9	S?ntese, caracteriza?ao e propriedades catalicas da peneira molecular nanoestruturada modificada com lantanio Quintella, Solange Assun??o 06 August 2009 (has links) Made available in DSpace on 2014-12-17T15:42:09Z (GMT). No. of bitstreams: 1 SolangeAQ_TESE.pdf: 2741616 bytes, checksum: ad21da6882b166123a02d610e3d096ef (MD5) Previous issue date: 2009-08-06 / Coordena??o de Aperfei?oamento de Pessoal de N?vel Superior / The nanostructured molecular sieve SBA-15 was synthesized by the hydrothermal method, and modified with lanthanum with Si/La molar ratios of 25, 50, 75 and 100. The materials were evaluated as catalysts for the cracking of n-hexane model reaction. Type SBA- 15 and LaSBA-15 mesoporous materials were synthesized using tetraetilortosilicato as a source of silica, hydrochloric acid, heptahydrate lanthanum chloride and distilled water. Pluronic P123 triblock. polymer was used as structure template. The syntheses were carried out by 72 hours. The obtained SBA-15 samples were previously analyzed by thermogravimetry, in order to check the conditions of calcination for removal of organic template. Then, the calcined materials were characterized by X-ray diffraction, infrared spectroscopy, adsorption and desorption of nitrogen, scanning electron microscopy and X-ray microanalysis by dispersive energy. The acidity of the samples was determined using adsorption of n-bulinamina and desorption followed by thermogravimetry. It was found that the hydrothermal synthesis method was suitable for the synthesis of the SBA-15 mesoporous materials, with an excellent degree of hexagonal ordering. The reactions of catalytic cracking of n-hexane were carried out using a fixed bed continuous flow microreactor, coupled on-line to a gas chromatograph. From the catalytic evaluation, it was observed that the mesoporous materials containing lanthanum showed different results for the reaction of cracking of nhexane compared to the unmodified mesoporous material SBA-15. As a result of cracking was obtained as main products hydrocarbons in the range of C1 to C5. The catalyst that showed better properties in relation to the acidity and catalytic activity was LaSBA-15 with the ratio Si/La = 50 / A peneira molecular nanoestruturada SBA-15 foi sintetizada pelo m?todo hidrot?rmico, e modificada com lant?nio com raz?es molares Si/La de 25, 50, 75 e 100. Os materiais obtidos foram avaliados como catalisador para a rea??o modelo de craqueamento de n-hexano. Os materiais mesoporosos tipo SBA-15 e LaSBA-15 foram sintetizados utilizando tetraetilortosilicato, como fonte de s?lica, ?cido clor?drico, cloreto de lant?nio heptahidratado e ?gua destilada. Como direcionador estrutural foi utilizado copol?mero tribloco Pluronic P123. As s?nteses foram realizadas durante 72 horas. As amostras de SBA-15 modificadas foram avaliadas por termogravimetria para verificar as condi??es de calcina??o para remo??o do direcionador org?nico. Ap?s a retirada do direcionador as amostras de SBA-15 modificadas com diversas raz?es Si/La (25, 50, 75 e 100) foram caracterizadas por an?lises por difra??o de raios-X, espectroscopia na regi?o do infravermelho, adsor??o e dessor??o de nitrog?nio, microscopia eletr?nica de varredura e microan?lise de raios X por energia dispersiva. A acidez das amostras foi determinada utilizando adsor??o de n-bulinamina seguido de dessor?ao por termogravimetria. Verificou-se que o m?todo de s?ntese hidrot?rmica foi adequado ? s?ntese dos materiais mesoporosos modificados com excelente grau de ordena??o hexagonal. As rea??es de craqueamento catal?tico do n-hexano foram realizadas em um microreator catal?tico de leito fixo com fluxo cont?nuo acoplado em linha com um cromat?grafo a g?s. A partir da avalia??o catal?tica, foi observado que os materiais mesoporosos contendo lant?nio foram mais ativos que o SBA-15, para a rea??o de craqueamento do n-hexano, obtendo-se como produto hidrocarbonetos na faixa de C1 a C5. O catalisador que apresentou melhores propriedades, em rela??o ? acidez e a atividade catal?tica foi o sintetizado com a raz?o Si/La=50 Materiais mesoporosos SBA-15 Craqueamento catal?tico Lant?nio Mesopores materials SBA-15 Cracking catalytic Lanthanum
10	Catalytic Material Design: Impact of Synthesis Conditions on the Pore Architecture and Catalytic Performance of Micro-Mesoporous Silica Supported Catalysts Kane, Ashwin 05 October 2022 (has links) No description available. Chemical Engineering

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