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31	Síntese e caracterização de metaloporfirinas imobilizadas em SBA-15 como catalisadores biomiméticos na oxidação de hidrocarbonetos / \"Synthesis and Characterization of Metalloporphyrins immobilized in SBA-15 as Catalysts at Biomimetic Oxidation of Hydrocarbons\" Zanatta, Lucas Dimarô 07 March 2014 (has links) As metaloporfirinas (MeP) cloreto de 5,10,15,20-tetra(pentafluorofenill)porfirina de manganês (III) e ferro (III) (MnIIIP e FeIIIP) foram imobilizadas em matriz de sílica híbrida mesoporosa do tipo SBA-15. Os grupos silanóis da SBA-15 foram modificados com (3-aminopropil)trietoxissilano (APTES) e (3-aminopropil)dietoximetilsilano (APDES), que após a imobilização das metaloporfirinas geraram os catalisadores FeP-APSBA, FeP-APMSBA, MnP-APSBA e MnP-APMSBA. Um terceiro tipo de material foi preparado a partir da ligação de grupos trimetilsilil (TMS) nos catalisadores FeP-APSBA e MnP-APSBA, gerando outros dois catalisadores que foram denominados FeP-APSBA-TMS e MnP-APSBA-TMS. Os materiais foram caracterizados por FTIR, RD UV-Vis, TG/TGA MEV, MET e isotermas de adsorção e dessorção de N2 (BET/BJH). Para analisar a natureza da interação solvente-superfície nos materiais, foram determinadas medidas goniométricas de energia livre de superfície. Os catalisadores foram estudados na oxidação dos substratos (Z)-ciclo-octeno e ciclo-hexano, utilizando iodosilbenzeno (PhIO) como espécie doadora de oxigênio a fim de avalia-los como biomiméticos do citocromo P450. Os parâmetros estruturais foram comparados aos resultados catalíticos frente à formação da gaiola de solvente e das espécies intermediárias de alta valência, FeIV(O)P+. e MnV(O)P e estudar como esses fatores afetam o rendimento e a seletividade das reações catalisadas. As MeP-SBAs apresentaram uma faixa de rendimento de 88 a 47 % para epoxidação de (Z)-ciclo-octeno. Já na oxidação de ciclo-hexano houve formação de 2 a 8 % de ciclo-hexanol e 2 % de ciclo-hexanona. Observou-se maior seletividade para o álcool com as FeP-SBAs. / Manganese (III) and iron (III) 5,10,15,20- tetra(pentafluorophenyl) porphyrin (MnIIIP and FeIIIP ) chloride were immobilized in mesoporous silica hybrid matrix SBA-15. Silanol groups were modified with (3-aminopropyl)triethoxysilane (APTES) and (3-aminopropyl)diethoxymethylsilane (APDES), generating catalysts called FeP-APSBA, FeP-APMSBA, MnP-APSBA and MnP-APMSBA. A third type of material was prepared from the binding trimethylsilyl groups (TMS) in FeP-APSBA and MnP- APSBA catalysts generating the other two catalysts named FeP-APSBA-TMS and MnP-APSBA-TMS. The materials were characterized by FTIR , DR UV-Vis , TG/TGA SEM , TEM and adsorption and desorption isotherms of N2 (BET/BJH) and to analyze the materials solvent - surface interaction nature the were determined goniometric measurements of surface free energy. Catalysts were evaluated for (Z)- cyclooctene and cyclohexane oxidation mediated by iodosylbenzene (PhIO) as the oxygen donor species to evaluate their catalytic activity as cytochrome P450 biomimetics. Structural parameters were compared to catalytic results related to cage solvent formation and the intermediate species high valence FeIV(O)P+. and MnV(O) P and how these factors affect the yield and selectivity of catalysts. MeP-SBA\'s reactions showed a range of 88-47 % for epoxidation (Z)-cyclooctene and cyclohexane oxidation yielding 2 to 8 % of cyclohexanol and 2 % of cyclohexanone. In the latter case was observed a higher selectivity for alcohol with FeP-SBA\'s. Biomimetic study Citocromo P-450 Cytochrome P-450 Estudo Biomimético Metalloporphyrins Metaloporfirinas Oxidação de hidrocarbonetos Oxidation of Hydrocarbons SBA-15 SBA-15
32	S?ntese, caracteriza??o e estudo cin?tico da degrada??o de quitosana impregnada em SBA-15 Santos, Adriana Paula Batista dos 15 March 2012 (has links) Made available in DSpace on 2014-12-17T15:41:58Z (GMT). No. of bitstreams: 1 AdrianaPBS_DISSERT.pdf: 2596487 bytes, checksum: f09071ef3141cb36b73492e4246e301b (MD5) Previous issue date: 2012-03-15 / O recente interesse em se obter materiais nanoporosos funcionalizados para aplica??es como calisadores heterog?neos e adsor??o de CO2, tem aumentado no meio industrial e cientifico. Nesta ?ltima aplica??o, a introdu??o de grupos aminas, como os presentes em quitosana, em materiais nanoporosos do tipo SBA-15 para gerar intera??es espec?ficas com o CO2 tem ganhado import?ncia. Assim, neste trabalho foram realizadas a s?ntese do SBA-15 e posterior impregna??o da CS no suporte mesoporoso atrav?s do m?todo de impregna??o por via ?mida. Os materiais obtidos foram caracterizados por meio DRX, TG, DSC, MEV, FTIR e adsor??o/dessor??o de N2. Os resultados de DRX indicaram que a estrutura ordenada do suporte SBA-15 foi preservada ap?s a impregna??o e os c?lculos mostraram que o di?metro m?dio do poro e/ou a espessura m?dia da parede (wt) foram alterados devido a introdu??o da quitosana nas amostras funcionalizadas. As curvas de TG e de DSC,corroboraram com os dados de DRX, indicando a presen?a da quitosana na estrutura mesoporosa do SBA-15, assim como as micrografias das amostras funcionalizadas, que possibilitou visualizar o estado de agrega??o do material obtido. As bandas caracter?sticas de absor??o da CS na regi?o IV foram identificadas e interpretadas nas amostras funcionalizadas confirmando as outras caracteriza??es. Foi visto tamb?m que a ?rea superficial diminuiu nas amostras funcionalizadas, indicando a sucessiva incorpora??o do pol?mero no suporte mesoporoso. A energia de ativa??o do processo de degrada??o t?rmica da quitosana impregnada no suporte foi determinada por meio do m?todo de cin?tica livre de Viazovkin e pelo m?todo de Ozawa-Flay-Wall com os resultados indicando que o aumento da quitosana diminui em aproximadamente 10% a energia de ativa??o para sua degrada??o. SBA-15 Quitosana Suporte Impregna??o Cin?tica SBA-15 Chitosan Support Impregnation kinetics
33	S?ntese, caracteriza??o e estudo cin?tico da degrada??o de quitosana impregnada em SBA-15 Santos, Adriana Paula Batista dos 15 March 2012 (has links) Made available in DSpace on 2014-12-17T15:41:59Z (GMT). No. of bitstreams: 1 AdrianaPBS_DISSERT.pdf: 2596487 bytes, checksum: f09071ef3141cb36b73492e4246e301b (MD5) Previous issue date: 2012-03-15 / Conselho Nacional de Desenvolvimento Cient?fico e Tecnol?gico / The recent interest in obtaining functionalized nanoporous materials for applications such as heterogeneous catalysts and adsorption of CO2 has increased today. In the latter application, the introduction of amino groups such as present in the chitosan (CS), in the nanoporous materials like SBA-15 to generate specific interactions with CO2 has gained importance. In this work were performed to hydrothermal synthesis of SBA-15 and subsequent impregnation of the CS in the support mesoporous by the method of the wet impregnation. The materials were characterized by TG/DTG, DSC, XRD, SEM, FTIR and adsorption / desorption of N2. The XRD showed that the ordered structure of the support SBA-15 was preserved after the impregnation and calculations have shown that the average pore diameter (Dp) and / or the average wall thickness (wt) have been changed due to introduction of the CS in the samples functionalized. The curves of TG and DSC data corroborates the XRD, indicating the presence of CS in the nanoporous structure of SBA-15, as well as micrographs of samples, which allowed the display state of aggregation of the material obtained. The characteristics of bands absorption in the region of the CS in the FTIR were identified and interpreted in the samples functionalized, confirming the further characterization. Measurements showed that the BET surface area decreases in the functionalized samples, indicating the successive incorporation of the polymer in the nanoporous support. The activation energy apparent (Ea) for the process of thermal degradation of CS in the impregnated support was determined by the methods of kinetic freedom Vyazovkin and Ozawa-Flynn-Wall with the results indicating that the sample functionalized CS/SBA-15 2,5 % was decrease of the Ea in their degradation of about 10% compared to 1,0 % CS/SBA-15 sample / O recente interesse em se obter materiais nanoporosos funcionalizados para aplica??es como catalisadores heterog?neos e na adsor??o de CO2 tem aumentado atualmente. Nesta ?ltima aplica??o, a introdu??o de grupos aminas, como os presentes na quitosana (CS), em materiais nanoporosos do tipo SBA-15 para gerar intera??es espec?ficas com o CO2 tem ganhado import?ncia. Assim, neste trabalho foram realizadas a s?ntese hidrot?rmica do SBA- 15 e posterior impregna??o da CS no suporte mesoporoso atrav?s do m?todo de impregna??o por via ?mida. Os materiais obtidos foram caracterizados por meio de TG/DTG, DSC, DRX, MEV, FTIR e adsor??o/dessor??o de N2. Os resultados de DRX indicaram que a estrutura ordenada do suporte SBA-15 foram preservada ap?s a impregna??o e os c?lculos mostraram que o di?metro m?dio do poro (Dp) e/ou espessura m?dia da parede (wt) foram alterados devido a introdu??o da CS nas amostras funcionalizadas. As curvas de TG e DSC corroboraram com os dados de DRX, indicando a presen?a da CS na estrutura mesoporosa do SBA-15, assim como as micrografias das amostras funcionalizadas, que possibilitou visualizar o estado de agrega??o do material obtido. As bandas caracter?sticas de absor??o da CS da regi?o IV foram identificadas e interpretadas nas amostras funcionalizadas, confirmando as outras caracteriza??es. As medidas de BET mostraram que a ?rea superficial diminui nas amostras funcionalizadas, indicando a sucessiva incorpora??o do pol?mero no suporte nanoporoso. A energia de ativa??o aparente (Ea) do processo de degrada??o t?rmica da CS impregnada no suporte foi determinada por meio dos m?todos de cin?tica livre de Vyazovkin e de Ozawa-Flynn-Wall com os resultados indicando que a amostra funcionalizada CS/SBA-15 2,5 % teve uma diminui??o da Ea para a sua degrada??o de aproximadamente de 10% em rela??o a amostra de CS/SBA-15 1,0 % SBA-15 quitosana suporte impregna??o cin?tica SBA-15. chitosan support impregnation kinetics
34	Avaliação de protetores solares contendo filtros encapsulados/incorporados em matriz de sílica mesoporosa ordenada do tipo SBA-15 / Evaluation of sunscreens containing encapsulated/entrapped UV filters in ordered mesoporous silica type SBA-15. André Luís Maximo Daneluti 24 August 2018 (has links) Filtros orgânicos são amplamente utilizados em formulações fotoprotetoras, com habilidade de absorver radiações ultravioleta (UV). Contudo, parte destes compostos possuem limitações, como: fotoinstabilidade, permeação cutânea e fotossensibilização e entre outros. Este trabalho envolveu a síntese de matriz mesoporosa do tipo SBA-15, encapsulação/incorporação de ρ-metoxicinamato de octila (MCO), benzofenona-3 (BZF-3) e avobenzona (AVO) na SBA-15 para aplicação em formulações fotoprotetoras. Fez-se a determinação da eficácia in vitro dos filtros encapsulados/incorporados combinados a ingrediente cosmético; o preparo de bastão fotoprotetor e determinação eficácia estimada; a avaliação do potencial de irritação ocular dos bastões por HET-CAM - Hen\'s Egg Test - Chorioallantoic Membrane, e a avaliação da permeação/retenção cutânea e perfil de biodistribuição dos filtros. Para a caracterização dos materiais foram empregadas técnicas físico-químicas e analíticas. As medidas de adsorção/dessorção de N2 mostrou que as amostras dos filtros solares encapsulados/incorporados apresentaram diminuição na área superficial e volume de poro (V), indicando que os filtros solares foram encapsulados/incorporados na superfície e nos poros da SBA-15. Os resultados de Espalhamento de raios X a baixo ângulo evidenciaram que os filtros solares não afetaram a estrutura hexagonal da SBA-15. Por TG/DTG e análise elementar foi possível determinar a quantidade de filtros solares na superfície e nos mesoporos da SBA-15. Enquanto, as curvas DSC e DTA revelaram aumento na estabilidade térmica da AVO e BZF-3, quando encapsulados/incorporados. Os resultados da eficácia fotoprotetora in vitro monstraram que a combinação dos três filtros solares encapsulados/incorporados na SBA-15 promoveram aumento de 52% no fator proteção solar (FPS), enquanto que, na formulação fotoprotetora contendo os três filtros encapsulados/incorporados, o aumento foi de 94%. O ensaio de HET-CAM evidenciou que os bastões contendo SBA-15 e os filtros encapsulados/incorporados não foram irritantes. O ensaio de permeação/retenção cutânea monstrou que o processo de encapsulação/incorporação da BZF-3 promoveu diminuição de sua permeação em todos os tempos de exposição. As quantidades permeadas de AVO e MCO ficaram abaixo do limite de quantificação nos tempos 6 e 12 h, no entanto, no tempo de 24 h foi possível quantificá-los. As quantidades dos filtros solares retidas na pele a partir da formulação contendo os filtros solares encapsulados/incorporados na SBA-15 (F4) foram menores (tempos 6 e 12 h) em comparação à formulação contendo os filtros solares não encapsulados (F3). A investigação da biodistribuição dos filtros solares monstrou que a retenção total na pele, como na derme, foi menor na formulação F4 em comparação à F3. O estudo comparativo entre pele suína e a pele humana monstrou que as quantidades de BZF-3 e AVO permeadas e retidas na pele suína foram superiores do que em relação à humana para ambas as formulações (F4 e FR). Pela técnica de biodistribuição, foi possível determinar que os filtros solares oriundos das formulações F3 e referência (FR) apresentaram maior retenção destes compostos na derme do que em outras camadas da pele. Contudo, observou-se que os filtros encapsulados apresentaram taxa reduzida de retenção na derme. / Organic Filters are chemical compounds widely used in sunscreens formulations with the ability to absorb ultraviolet radiation (UV). Despite the effectiveness of these compounds in UV radiation protection, disadvantages related to their photo instability, potential skin permeation and photo sensibility pose significant challenges for improving these products. The aim of this work was to synthesize mesoporous matrix SBA-15, encapsulation/entrapping of octyl methoxycinnamate (OMC), benzophenone-3 (BZF-3) and avobenzone (AVO) into SBA-15 for application in photoprotective formulations. It was accessed in vitro photoprotection efficacy and in vitro photostability assay of encapsulated/entrapped UV filters combined with cosmetic ingredient and photoprotective stick formulations; evaluation of the ocular irritation potential of photoprotective stick formulations by in vitro method HET-CAM - Hen\'s Egg Test - Chorioallantoic Membrane; evaluation the skin permeation/deposition and biodistribution profile of photoprotective stick formulations. The decrease in the surface area and in mesoporous volume (V) observed in the nitrogen adsorption desorption isotherms of encapsulated/entrapped samples indicated that UV filters were efficiently encapsulated/entrapped into SBA-15. Additionally, SAXS results showed that UV filters did not affected the hexagonal structure of the mesoporous material and that these compounds filled the SBA-15 pores. TG/DTG and elemental analysis were efficient tools to confirm the presence and the quantity of UV filters into SBA-15. DTA and DSC curves of encapsulated/entrapped materials showed that the thermal stability of AVO and BZF-3 were increased. On the other hand, DSC curves of encapsulated/entrapped materials demonstrated that thermal stability of OMC was not increase. The in vitro photoprotective efficacy results demonstrated that the combination of the three sunscreens encapsulated/entrapped into SBA-15 increased 52.0% the SPF values, while the stick formulation containing the UV filters encapsulated/entrapped, the increase was 94.0%. Delivery experiments using porcine skin demonstrated that the encapsulation/entrapping process of UV filters resulted the decreased of BZF-3 permeation and deposition in skin (6 and 12 hours). The cutaneous biodistribution profile of UV filters showed that the deposition of these compounds from encapsulated/entrapped stick formulation (F4) was significantly lower than that from UV filters stick formulations (F3) in the total slices of the skin and dermis. The comparative study between porcine skin and human skin demonstrated that the amounts of BZF-3 and AVO permeated and deposited in porcine skin were higher than in human skin for both formulations (F4 and FR - reference formulation). By the biodistribution technique it was possible to determine that the UV filters from the formulations F3 and FR presented higher retention of these compounds in the dermis than in other layers of the skin. On the other hand, it was observed that the encapsulated UV filters presented low retention rate into dermis. Bastão fotoprotetor Biodistribuição Filtros solares Fotoproteção FPS in vitro SBA-15 Biodistribution In vitro SPF Photoprotection SBA-15 Stick formulations UV filters
35	Catalytic performances of NiMo/Zr-SBA-15 catalysts for the hydrotreating of bitumen derived heavy gas oil Biswas, Piyali 26 May 2011 Gas-oil obtained from bitumen contains a significant amount of impurities, which are difficult to remove using a conventional alumina supported hydrotreating catalyst. Innumerable studies have been carried out to develop a highly effective hydrotreating catalyst, and among all utilizing more advanced support is considered as a better alternative. Recently, SBA-15, which is an ordered mesoporous silica support, has received importance as a catalyst support because of its excellent textural properties. However, SBA-15 lacks surface acidity and provides very low metal-support interaction. By modifying SBA-15 with zirconia, an optimum level of surface acidity and Si-Mo interaction can be achieved. Also, by doping zirconia with SBA-15, the textural properties of zirconia can be improved. Hence, a synergistic effect can be obtained while incorporating zirconia onto SBA-15 and the resulting material Zr-SBA-15 can be used as an effective support for hydrotreating catalyst. In the present study, Zr-SBA-15 supports were prepared by the post synthesis and the direct synthesis method with different zirconia loading. Zr-SBA-15 supported NiMo catalysts were prepared by incipient wetness impregnation technique. Catalysts and supports were characterized by small angle X-ray scattering (SAXS), nitrogen adsorption/desorption (BET), powder X-ray diffraction (XRD), transmission electron spectroscopy (TEM), scanning electron microscopy (SEM), and Raman spectroscopy methods.<p> Characterization of support confirmed that the zirconia was successfully incorporated in a mesoporous SBA-15 structure without significantly changing the textural properties of SBA-15. The performance of the Zr-SBA-15 supported NiMo catalysts was evaluated based on hydrodesulfurization and hydrodenitrogenation activities exhibited during hydrotreating of heavy gas oil derived from Athabasca bitumen at industrial operating condition (temperature 375-395 °C, pressure 8.9 MPa, LHSV 1.0 hr-1 and gas/oil ratio 600 Nm3/m3). The comparison of catalytic activities showed that the NiMo catalysts supported on Zr-SBA-15, prepared by direct and post synthesis method exhibited higher hydrotreating activity compared to SBA-15 supported catalyst. NiMo catalyst supported on Zr-SBA-15 with 23 wt% of ZrO2 loading, prepared by post synthesis method showed the highest activity among all the catalysts.<p> After determining the best support, the optimum catalyst metal loadings on the Zr-SBA-15 support was found to be 17 wt% of Mo and 3.4 wt% of Ni. This catalyst also showed higher activity in mass basis for the hydrotreating of heavy gas oil compared to that of commercial hydrotreating catalyst.<p> A kinetic study was performed on the optimum NiMo/Zr-SBA-15 catalyst to predict its HDS and HDN activities while varying the parameters of temperature, liquid hourly space velocity (LHSV), pressure and gas-to-oil ratio. Rate expressions were developed using Power Law and Langmuir-Hinshelwood model to predict the behavior of both the HDS and HDN reactions. Power law models were best fit with reaction orders of 1.8 and 1.3, and activation energies of 115 kJ/mol and 121 kJ/mol, for HDS and HDN reactions, respectively. The activation energies calculated using Langmuir-Hinshelwood model considering H2S inhibition were found to be 122 kJ/mol and 138 kJ/mol, for HDS and HDN reactions, respectively. Mass Transfer Hydrodynamics Kinetics Hydrotreating NiMo catalysts Heavy gas oil Zr-SBA-15 SBA-15 Mesoporous materials
36	Catalytic performances of NiMo/Zr-SBA-15 catalysts for the hydrotreating of bitumen derived heavy gas oil Biswas, Piyali 26 May 2011 (has links) Gas-oil obtained from bitumen contains a significant amount of impurities, which are difficult to remove using a conventional alumina supported hydrotreating catalyst. Innumerable studies have been carried out to develop a highly effective hydrotreating catalyst, and among all utilizing more advanced support is considered as a better alternative. Recently, SBA-15, which is an ordered mesoporous silica support, has received importance as a catalyst support because of its excellent textural properties. However, SBA-15 lacks surface acidity and provides very low metal-support interaction. By modifying SBA-15 with zirconia, an optimum level of surface acidity and Si-Mo interaction can be achieved. Also, by doping zirconia with SBA-15, the textural properties of zirconia can be improved. Hence, a synergistic effect can be obtained while incorporating zirconia onto SBA-15 and the resulting material Zr-SBA-15 can be used as an effective support for hydrotreating catalyst. In the present study, Zr-SBA-15 supports were prepared by the post synthesis and the direct synthesis method with different zirconia loading. Zr-SBA-15 supported NiMo catalysts were prepared by incipient wetness impregnation technique. Catalysts and supports were characterized by small angle X-ray scattering (SAXS), nitrogen adsorption/desorption (BET), powder X-ray diffraction (XRD), transmission electron spectroscopy (TEM), scanning electron microscopy (SEM), and Raman spectroscopy methods.<p> Characterization of support confirmed that the zirconia was successfully incorporated in a mesoporous SBA-15 structure without significantly changing the textural properties of SBA-15. The performance of the Zr-SBA-15 supported NiMo catalysts was evaluated based on hydrodesulfurization and hydrodenitrogenation activities exhibited during hydrotreating of heavy gas oil derived from Athabasca bitumen at industrial operating condition (temperature 375-395 °C, pressure 8.9 MPa, LHSV 1.0 hr-1 and gas/oil ratio 600 Nm3/m3). The comparison of catalytic activities showed that the NiMo catalysts supported on Zr-SBA-15, prepared by direct and post synthesis method exhibited higher hydrotreating activity compared to SBA-15 supported catalyst. NiMo catalyst supported on Zr-SBA-15 with 23 wt% of ZrO2 loading, prepared by post synthesis method showed the highest activity among all the catalysts.<p> After determining the best support, the optimum catalyst metal loadings on the Zr-SBA-15 support was found to be 17 wt% of Mo and 3.4 wt% of Ni. This catalyst also showed higher activity in mass basis for the hydrotreating of heavy gas oil compared to that of commercial hydrotreating catalyst.<p> A kinetic study was performed on the optimum NiMo/Zr-SBA-15 catalyst to predict its HDS and HDN activities while varying the parameters of temperature, liquid hourly space velocity (LHSV), pressure and gas-to-oil ratio. Rate expressions were developed using Power Law and Langmuir-Hinshelwood model to predict the behavior of both the HDS and HDN reactions. Power law models were best fit with reaction orders of 1.8 and 1.3, and activation energies of 115 kJ/mol and 121 kJ/mol, for HDS and HDN reactions, respectively. The activation energies calculated using Langmuir-Hinshelwood model considering H2S inhibition were found to be 122 kJ/mol and 138 kJ/mol, for HDS and HDN reactions, respectively. Mass Transfer Hydrodynamics Kinetics Hydrotreating NiMo catalysts Heavy gas oil Zr-SBA-15 SBA-15 Mesoporous materials
37	Sílicas Mesoporosas SBA-15 modificadas com aminas cíclicas Síntese, caracterização e adsorção de cátions. / Mesoporous silica SBA-15 modified with cyclic amines Synthesis, characterization and adsorption of cations. Filha., Vera Lúcia da Silva Augusto 21 December 2011 (has links) Made available in DSpace on 2015-05-14T13:21:24Z (GMT). No. of bitstreams: 1 ArquivoTotalVera.pdf: 4253714 bytes, checksum: 62accb00a3950a524f123710d7f18362 (MD5) Previous issue date: 2011-12-21 / Coordenação de Aperfeiçoamento de Pessoal de Nível Superior - CAPES / In this work was realized the synthesis of silica SBA-15 at room temperature by acid hydrolysis of tetraethyl ortosilicate (TEOS) in presence of the pluronic copolymer P123 (EO20PO70EO20). The new silylating agents were synthesized from reaction of the commercial reagents 3-glycidoxipropyltrimethoxyisilane (GLIC) and 3- chloropropyltrimethoxysilane (Cl) with the molecule of 1-(2-aminoethyl)piperazine (AMP). The new silylating agents were anchored onto mesoporous silica surface by homogeneous route (HOM). The commercial silylating agents and the amines 1-(2- aminoethyl) piperazine (AMP) and piperazine (PIP) were immobilized in consecutive steps by heterogeneous route (HET). Silica SBA-15 was characterized by X-ray scattering in low angle and nitrogen adsorption-desorption measurement. The new silylating agents were characterized by 13C NMR and infrared spectroscopy. The modified matrices were characterized by infrared spectroscopy, nitrogen adsorption-desorption measurement, CHN and Cl elemental analysis, thermogravimetry, scanning electron microscopy and 29Si NMR. Elemental analysis data indicated that the anchoring of 3.41, 3.01, 0.26, 0.32, 0.46 and 0.34 mmol of nitrogen per gram of the supports SIL-GLIC-AMP-HOMO, SIL-Cl-AMP- HOMO, SIL-GLIC-AMP-HETE, SIL-Cl-AMP-HETE, SIL-GLIC-PIP and SIL-Cl-PIP, respectively. These data demonstrated the efficiency of homogeneous route for immobilization of molecule AMP. The adsorption processes were investigated for copper, nickel and cobalt nitrates at pH 2.0; 4.0; 6.0 and 8.0 for silicas modified with the molecule AMP in different times, where the results indicated that the processes were adjusted to a pseudo-second order kinetic. The modified silicas showed the retention capacity at equilibrium for Co2+, Cu2+ and Ni2+ of 1.40; 2.80 and 4.22 mmol g-1 for SILCl- AMP-HETE, 1.02; 1.87 and 6.87 mmol/g for SIL-Cl-AMP-HETE, 4.50; 9.02 and 2.62 for SIL-Cl-AMP-HOMO and 4.,68; 5.55 and 5.28 mmol g-1 for SIL-GLIC-AMP-HOMO, respectively. The adsorption isotherms were best fitted to Temkin, Henry and Freundlich equilibrium models, evidencing the heterogeneity of adsorption sites onto mesoporous silica SBA. / Neste trabalho foi realizada a síntese da sílica SBA-15 a temperatura ambiente partindo-se do copolímero poli(etileno glicol)-bloco-poli(propileno glicol)-bloco-poli(etileno-glicol) - P123. Os novos agentes sililantes foram sintetizados pelas reações dos agentes sililantes comerciais 3-glicidóxipropiltrimetóxisilano (GLIC) e 3-cloropropiltrimetoxisilano (Cl) com a molécula da 1-(2-aminoetil)piperazina (AMP). Os novos agentes sililantes foram ancorados na superfície da sílica mesoporosa pela rota homogênea (HOM). Os agentes sililantes comerciais e as moléculas das aminas 1-(2-aminoetil)piperazina (AMP) e piperazina (PIP) foram também imobilizadas em etapas consecutivas pela rota heterogênea (HET). A sílica SBA-15 foi caracterizada através das técnicas de espalhamento de raios-x em baixo ângulo e área superficial. Os novos agentes sililantes foram caracterizados pelas técnicas de ressonância magnética nuclear 13C e espectroscopia na região do infravermelho. As diferentes matrizes modificadas foram caracterizadas pelas técnicas de espectroscopia na região do infravermelho, área superficial, análise elementar (CNCl), termogravimetria, microscopia eletrônica de varredura e ressonância magnética nuclear de 29Si. A análise elementar para os sólidos obtidos indicou o ancoramento de 3,41, 3,01, 0,26, 0,32, 0,46 e 0,34 mmol de nitrogênio por grama nas superfícies SIL GLIC-AMP-HOMO, SIL-Cl-AMP-HOMO, SIL-GLIC-AMP-HETE, SIL-Cl-AMP-HETE, SIL-GLIC-PIP e SIL-Cl-PIP, respectivamente. Estes dados demonstraram a eficiência da rota homogênea no ancoramento da molécula AMP comparada à rota heterogênea. Os processos de adsorção foram investigados para os nitratos de cobre, níquel e cobalto em pH 2,0; 4,0; 6,0 e 8,0 para as superfícies modificadas com a molécula 1-(2-aminoetil)piperazina em tempos variados, seguindo uma cinética de pseudo-segunda ordem. Os sólidos modificados apresentaram as capacidades de retenção no equilíbrio em relação aos cátions de Co2+, Cu2+ e Ni2+ de 1,40; 2,80 e 4,22 mmol/g para SIL-Cl-AMP-HETE, 1,02; 1,87 e 6,87 mmol/g para SIL-Cl-AMP-HETE, 4,50; 9,02 e 2,62 para SIL-Cl-AMP-HOMO e 4,68; 5,55 e 5,28 mmol/g para SIL-GLIC-AMP-HOMO, respectivamente. Os processos de adsorção foram ajustados aos modelos de equilíbrio de Temkin, Henry e Freundlich evidenciando a heterogeneidade dos sítios adsorventes nas matrizes sintetizadas. Química Sílicas mesoporosas SBA-15 Aminas cíclicas SBA-15 Cyclic amines Adsorption Mesoporous silica CIENCIAS EXATAS E DA TERRA::QUIMICA
38	Síntese e caracterização de metaloporfirinas imobilizadas em SBA-15 como catalisadores biomiméticos na oxidação de hidrocarbonetos / \"Synthesis and Characterization of Metalloporphyrins immobilized in SBA-15 as Catalysts at Biomimetic Oxidation of Hydrocarbons\" Lucas Dimarô Zanatta 07 March 2014 (has links) As metaloporfirinas (MeP) cloreto de 5,10,15,20-tetra(pentafluorofenill)porfirina de manganês (III) e ferro (III) (MnIIIP e FeIIIP) foram imobilizadas em matriz de sílica híbrida mesoporosa do tipo SBA-15. Os grupos silanóis da SBA-15 foram modificados com (3-aminopropil)trietoxissilano (APTES) e (3-aminopropil)dietoximetilsilano (APDES), que após a imobilização das metaloporfirinas geraram os catalisadores FeP-APSBA, FeP-APMSBA, MnP-APSBA e MnP-APMSBA. Um terceiro tipo de material foi preparado a partir da ligação de grupos trimetilsilil (TMS) nos catalisadores FeP-APSBA e MnP-APSBA, gerando outros dois catalisadores que foram denominados FeP-APSBA-TMS e MnP-APSBA-TMS. Os materiais foram caracterizados por FTIR, RD UV-Vis, TG/TGA MEV, MET e isotermas de adsorção e dessorção de N2 (BET/BJH). Para analisar a natureza da interação solvente-superfície nos materiais, foram determinadas medidas goniométricas de energia livre de superfície. Os catalisadores foram estudados na oxidação dos substratos (Z)-ciclo-octeno e ciclo-hexano, utilizando iodosilbenzeno (PhIO) como espécie doadora de oxigênio a fim de avalia-los como biomiméticos do citocromo P450. Os parâmetros estruturais foram comparados aos resultados catalíticos frente à formação da gaiola de solvente e das espécies intermediárias de alta valência, FeIV(O)P+. e MnV(O)P e estudar como esses fatores afetam o rendimento e a seletividade das reações catalisadas. As MeP-SBAs apresentaram uma faixa de rendimento de 88 a 47 % para epoxidação de (Z)-ciclo-octeno. Já na oxidação de ciclo-hexano houve formação de 2 a 8 % de ciclo-hexanol e 2 % de ciclo-hexanona. Observou-se maior seletividade para o álcool com as FeP-SBAs. / Manganese (III) and iron (III) 5,10,15,20- tetra(pentafluorophenyl) porphyrin (MnIIIP and FeIIIP ) chloride were immobilized in mesoporous silica hybrid matrix SBA-15. Silanol groups were modified with (3-aminopropyl)triethoxysilane (APTES) and (3-aminopropyl)diethoxymethylsilane (APDES), generating catalysts called FeP-APSBA, FeP-APMSBA, MnP-APSBA and MnP-APMSBA. A third type of material was prepared from the binding trimethylsilyl groups (TMS) in FeP-APSBA and MnP- APSBA catalysts generating the other two catalysts named FeP-APSBA-TMS and MnP-APSBA-TMS. The materials were characterized by FTIR , DR UV-Vis , TG/TGA SEM , TEM and adsorption and desorption isotherms of N2 (BET/BJH) and to analyze the materials solvent - surface interaction nature the were determined goniometric measurements of surface free energy. Catalysts were evaluated for (Z)- cyclooctene and cyclohexane oxidation mediated by iodosylbenzene (PhIO) as the oxygen donor species to evaluate their catalytic activity as cytochrome P450 biomimetics. Structural parameters were compared to catalytic results related to cage solvent formation and the intermediate species high valence FeIV(O)P+. and MnV(O) P and how these factors affect the yield and selectivity of catalysts. MeP-SBA\'s reactions showed a range of 88-47 % for epoxidation (Z)-cyclooctene and cyclohexane oxidation yielding 2 to 8 % of cyclohexanol and 2 % of cyclohexanone. In the latter case was observed a higher selectivity for alcohol with FeP-SBA\'s. Citocromo P-450 Estudo Biomimético Metaloporfirinas Oxidação de hidrocarbonetos SBA-15 Biomimetic study Cytochrome P-450 Metalloporphyrins Oxidation of Hydrocarbons SBA-15
39	SENSOR ELETROQUÍMICO A BASE DE Ni/SBA-15 PARA DETERMINAÇÃO DE COBRE EM ETANOL COMBUSTÍVEL / ELECTROCHEMICAL SENSOR BASED ON Ni/SBA-15 FOR DETERMINATION OF COPPER IN FUEL ETHANOL Yotsumoto Neto, Sakae 04 June 2013 (has links) Made available in DSpace on 2016-08-19T12:56:44Z (GMT). No. of bitstreams: 1 Dissertacao Sakae.pdf: 1745782 bytes, checksum: 1d832d38287a9925a8da302de8ee4f87 (MD5) Previous issue date: 2013-06-04 / This work presents the development of an electrochemical sensor, based on the modification of a graphite polyurethane composite electrode with 5% of Ni/SBA-15, applied to the determination of Cu2+ in ethanol fuel. In this study a comparison between the electrodes of graphite polyurethane was made, with and without the modifier SBA-15 composite. The study was carried out with the anodic stripping voltammetry technique in the square wave mode (ASV/SW) and the standard addition method. From the calibration curve, it was found that when Ni is incorporated in to silica nanomaterial, the slope is about two times higher than when metal that has not been incorporated into the nanocomposite. The electrochemical sensor containing Ni/SBA-15 was then evaluated electroanalytically for determination of Cu2+ in ethanol fuel samples, using the ASV/SW, and as a supporting electrolyte, the ammonium sulphate ((NH4)2(SO4)) 0,1 mol L-1 and pH = 3. After voltammetric study for optimization of experimental conditions and equipment, we obtained the following data, considered ideal: deposition potential (Edep) = -0,5 V; preconcentration time (tpré) = 160 s; frequency (Freq.) = 60 Hz, amplitude (amp) = 25mV and step potential ( step) = 5 mV. For statistical validation procedure, the accuracy of the method was determined through recovery tests, whose results were concordant, showing a recovery value in the concentration of Cu2+, 91%. The results obtained in the analyzed sample had an average value of 6,07 x 10-8 to Cu2+ concentration, showing that the graphite polyurethane composite electrode modified with Ni/SBA-15 is a great sensor for Cu2+. / Este trabalho apresenta o desenvolvimento de um sensor eletroquímico, a partir da modificação do eletrodo compósito de grafite poliuretana com Ni/SBA-15, em 5% deste modificador, aplicado na determinação de Cu2+ em etanol combustível. Neste estudo, fez-se uma comparação entre os eletrodos de compósito grafite poliuretana, com e sem o modificador SBA-15. O estudo foi realizado com Voltametria de Redissolução Anódica no modo onda quadrada (ASV/SW) e o método de adição padrão. A partir da curva analítica, observou-se que, quando se incorpora o Ni ao nanomaterial de sílica, a sensibilidade é aproximadamente duas vezes maior do que quando não se tem este metal presente no nanocompósito. O sensor eletroquímico com Ni/SBA-15 foi, então, avaliado eletroanaliticamente, para determinação de Cu2+ em amostras de etanol combustível, utilizando como eletrólito suporte o sulfato de amônio ((NH4)2(SO4)) 0,1 mol Lˉ¹, em pH 3. Após um estudo voltamétrico preliminar, para otimização das condições experimentais e do equipamento, obteve-se os seguintes dados, considerados adequados para as análises: potencial de deposição (Edep) = -0,5 V; tempo de pré-concentração (tpré) = 160 s; frequência (Freq.) = 60 Hz; amplitude (amp) =25mV e potencial de escada (Eescada) = 5 mV. Para validação estatística do procedimento, a exatidão do método foi determinada, através de testes de recuperação, cujos resultados foram concordantes, apresentando um valor de recuperação na concentração de Cu2+, de 91%. Os resultados obtidos na amostra analisada apresentaram um valor médio de 6,07 x 10ˉ8 mol Lˉ¹ para a concentração de Cu2+, mostrando que o eletrodo compósito grafite poliuretana modificado com Ni/SBA-15 é um sensor adequado para determinar Cu2+ neste tipo de amostra. Etanol combustível Voltametria Cobre Ni/SBA-15 Fuel ethanol Voltammetry Copper Ni/SBA-15
40	New approaches for the synthesis of high-performance polyolefins reactor nanocomposites and blends / Nouvelles approches pour la synthèse de polyoléfines de haute performance Ferreira Santos Melo, Ana Elisa 03 March 2016 (has links) Malgré les propriétés remarquables de polyéthylène de masse molaire très élevée(UHMWPE), une généralisation de son application est limitée en raison des difficultésrencontrées lors de sa mise en forme, liées au taux d’enchevêtrement important deschaînes.Le but de ce travail est de développer des nanocomposites et des mélanges à base depolyéthylène, par polymérisation in situ. A cet effet, des catalyseurs métallocènes et despost-métallocènes ont été immobilisés par différentes méthodes sur la silice mésoporeuseSBA-15. Le système poreux de ce support, avec des canaux bien définis à l'échellenanométrique, peut entraîner des effets de confinement des chaînes macromoléculaireset/ou permettre un mélange intime des polymères.Le comportement de la polymérisation de l'éthylène par catalyses homogène et supporté,ainsi que les méthodes d'immobilisation utilisées et leur effet sur l'activité depolymérisation et des masses molaires, ont été évalués.Une caractérisation complète des nanocomposites et des mélanges comprenant différentsaspects des matériaux (morphologie, cristallinité et homogénéité) a été réalisée. Lespropriétés thermiques et mécaniques des matériaux finaux ont été également évaluées.D'une manière générale, les nanocomposites à base de polyéthylène et les mélanges enréacteur ont montré des propriétés mécaniques améliorées, en termes de moduled'élasticité, résistance mécanique, ténacité et résistance au fluage, par comparaison avec lespolyéthylènes communs. En traitant la poudre d'UHMWPE par moulage, par compression àhaute pression et au-dessous de sa température de fusion, une augmentation remarquabledes paramètres mécaniques a été obtenue.Les résultats préliminaires sur la préparation de nanocomposites en utilisant desnanocristaux de cellulose ont montré que cette approche est faisable et qu’elle présente unpotentiel de développement. / Despite the remarkable properties of ultra-high molecular weight polyethylene, itsapplication is limited by the difficulties encountered in conventional melt processing duethe high degree of entanglement of the chains.The aim of this work is to develop polyethylene based nanocomposites and in-reactorblends, by in situ polymerization. For this purpose metallocenes and post-metallocenecatalysts were immobilized by different methods on mesoporous silica SBA-15. The poroussystem of this support, with well-defined channels at the nanometric scale, may causeconfinement effects of macromolecular chains and/or potentiate intimate mixing ofpolymer blends.Ethylene polymerization behavior of the homogeneous and the supported systems alongwith the immobilization methodologies used and their effect on the polymerization activityand polymer molar masses were evaluated.A complete characterization of the nanocomposites and blends comprising different aspectsof the materials properties (morphology, crystallinity and homogeneity) was carried out.The thermal and mechanical properties of the final materials were also evaluated.In a general way the polyethylene based nanocomposites and in-reactor blends showedimproved mechanical properties, in terms of elastic modulus, mechanical strength,toughness and creep resistance, when compared with neat polyethylenes. By processing theUHMWPE powders by compression molding, at high pressure and below its meltingtemperature a remarkable increase of the mechanical parameters was obtained.Preliminary results on the preparation of nanocomposites using cellulose nanowhiskershave shown that this approach is feasible and show potential for further development. Polyéthylène Catalyseurs à site unique SBA-15 Nanocomposite Mélanges en réacteur Polyethylene Single-site catalysts SBA-15 Nanocomposite In-reactor blends

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