Catalyse en synthèse organique : valorisation d'un biocatalyseur original et synthèse pallado-catalysée de nouveaux dérivés pyridopyrimidiniques / Catalysis in organic synthesis : development of an original biocatalyst and pallado-catalyzed synthesis of new pyridopyrimidinic derivatives

Riadi, Yassine

12 October 2013

La catalyse représente une thématique incontournable de la chimie moderne. Elle occupe une place stratégique dans la recherche de procédés de synthèse plus écologiques et plus économiques en atomes et en énergie. Notre travail réside, d’une part, dans la valorisation d’un biocatalyseur original et, d’autre part, dans la synthèse pallado-catalysée de nouveaux dérivés pyridopyrimidiniques. Dans la première partie, l’utilisation d’un nouveau support naturel préparé à base d’os animal (Animal Bone Meal : ABM) en catalyse hétérogène a été mise en oeuvre, ce qui représente une voie nouvelle et originale, permettant de remplacer les différents catalyseurs solides minéraux connus actuellement et ce, dans diverses réactions classiques de la synthèse organique. Outre les excellents rendements obtenus, les aspects positifs de l’ABM résident dans sa grande stabilité, sa facilité de manipulation et de régénération ainsi que dans l’absence de dangers sur l'environnement. Dans la deuxième partie, une nouvelle stratégie de synthèse simple et efficace de 2,4-di(hét)aryl-pyrido[2,3-d]pyrimidines via un couplage de Suzuki-Miyaura catalysée par le palladium a été développée. Nous avons ensuite étudié la réactivité de diverses 2,4,6-trihalogénopyrido[2,3-d]pyrimidines vis-à-vis des couplages de Suzuki. Cette étude a été étendue à la synthèse de nouvelles 2,4,6-tri(hét)arylpyrido[2,3-d]pyrimidines. / Catalysis is an essential theme of modern chemistry. It occupies a strategic position in the search process more environmentally friendly and more economical energy to atoms and synthesis. Our work lies, on one hand, the development of an original biocatalyst and, secondly, in the pallado-catalyzed synthesis of new derivatives pyridopyrimidiniques. In the first part, the use of a new natural media prepared animal bone (Animal Bone Meal: ABM) based in heterogeneous catalysis has been implemented, which is a new and original way, to replace different solid catalysts currently known minerals and that, in several classical reactions in organic synthesis. In addition to the excellent yields, the positive aspects of ABM lies in its stability, ease of handling and regeneration as well as in the absence of environmental hazards. In the second part, a new strategy for simple and efficient synthesis of 2,4-di(het)aryl-pyrido[2,3-d]pyrimidine via a Suzuki- Miyaura coupling catalyzed by palladium has been developed. We then studied the reactivity of various 2,4,6- trihalogénopyrido[2,3-d]pyrimidine via Suzuki couplings. This study was extended to the synthesis of new 2,4,6- tri(het)arylpyrido[2,3-d]pyrimidine.

Animal bone meal

Catalyse hétérogène

Pyrido[2,3-d]pyrimidines

Suzuki-Miyaura

Palladium

Animal Bone Meal

Heterogeneous catalysis

Pyrido[2,3-d]pyrimidines

Suzuki-Miyaura

Palladium

Acylation hétérogène de Friedel-Crafts en milieu CO2 supercritique / Friedel-Craft reaction in super critical CO2 media

Aribert, Nicolas

26 November 2009

L’acylation de Friedel-Crafts est parmi les réactions les plus fondamentales et les plus utiles pour former des cétones aromatiques. Bien que la mise en oeuvre de ces réactions soit habituellement pénalisante en termes de sous produits formés, de rendement atomique et de quantité de catalyseur utilisée, cette voie est encore largement utilisée dans l’industrie de la chimie fine. Ces dernières années, la prise de conscience de l’impact des activités industrielles sur l’environnement a mené les chimistes à travailler sur de nouvelles voies, moins dangereuses et plus respectueuses de l’environnement.Nous avons considéré ici l’acylation d’un dérivé du benzofurane par un chlorure d’acyle, correspondant à une étape intermédiaire pour la fabrication d’un principe actif pharmaceutique. Dans cette étude, la première proposition a consisté à remplacer les catalyseurs classiques (FeCl3 ou AlCl3) par des catalyseurs solides réutilisables. Dans ce travail, plusieurs catalyseurs (zéolites, résines échangeuses d’ions...) ont d’abord été testés dans des conditions « conventionnelles » , c’est-à-dire en utilisant un solvant organique, afin de déterminer le plus performant, en termes de réactivité, de durée de vie et de réutilisabilité. Une zéolite Y s’est avéré la plus adaptée. Cependant, l’utilisation d’un solvant organique (ici le 1,2-dichlorobenzène) reste discutable et l’utilisation du CO2 supercritique comme solvant a donc été envisagée. Pour cela, nous avons imaginé et dimensionné un réacteur tubulaire à lit fixe de catalyseur fonctionnant sous pression et en continu. Les résultats présentés montrent la faisabilité d’un tel procédé et pose les jalons pour arriver à une ou des solutions pour une meilleure mise en oeuvre industrielle des réactions de Friedel-Crafts. / Friedel-Crafts acylation is among the most fundamental and useful reactions to yield aromatic ketones, but it is one of the less acceptable in terms of unwanted polluting by-products or atom economy because of overconsumption of catalyst which is used in stoichiometric quantities in the conventional process. This route is nevertheless still widely used in the fine chemicals industry. In recent years, awareness of the impact of industrial activities on the environment has lead chemists to work on new chemical routes, less dangerous and more environmentally friendly. We considered here the acylation of a benzofurane derivative by an acid chloride, as an intermediary step for a pharmaceutical product. In this study, one of the first alternative was to replace conventional catalysts (FeCl3 or AlCl3), by reusable solid catalysts. In this work, different catalysts (zeolites, ion-exchange resins...) were first tested in "conventional" conditions, i.e., using an organic solvent (1,2-dichlorobenzene in our case), to determine the best one, in terms of reactivity, lifetime and reusability. The zeolite Y was found the most appropriate. However, the use of an organic solvent still remains questionable and the use of supercritical carbon dioxide as the solvent was also considered. Its inherent properties include non-flammability, mild critical conditions, tuneable solubility near to the critical point and very low environmental impact. The reaction was operated using a specifically designed continuous high pressure fixed bed and results concerning yield and selectivity are presented. These results demonstrate the feasibility of such an approach, which would ultimately yield to better industrial operation of Friedel-Crafts reactions.

CO2 supercritique

Réacteur à lit fixe continu

Oxyde d’indium

Acylation de Friedel-Crafts

Catalyse hétérogène

Zéolite

Supercritical CO2

Continuous fixed bed reactor

Indium oxide

Friedel-Crafts acylation

Heterogeneous catalysis

Zeolite

Valorisation catalytique d’un acide carboxylique issu de l’industrie sucrière / Catalytic valorization of a carboxylic acid derived from sugarcane industry

Hneine, Waël

21 June 2016

Ces travaux de thèse ont porté sur la conversion catalytique de l'acide aconitique (un co-produit de la filière canne à sucre) en molécules d'intérêt industriel. Par deux voies catalytiques. 1) Par catalyse homogène, hydrogénation de l'acide en polyols, a été étudiée dans un réacteur Batch à l'aide d'un complexe catalytique actif à base de Ru [Ru(acac)3/Triphos]. L'optimisation des différents paramètres réactionnels a été effectuée sur une réaction modèle, l'hydrogénation de l'acide succinique en 1,4-butanediol. Ultérieurement, ces conditions réactionnelles optimales ont été utilisées pour l'hydrogénation de l'acide aconitique et ont permis l'obtention d'un produit majoritaire, le 2-méthyl 1,4-butanediol. 2) Par catalyse hétérogène, la réaction d'hydro-cyclisation de l'acide aconitique en MTHF ou en lactones, a été réalisée en réacteur continue en présence de catalyseurs à base de cuivre en partant de solutions d'acide aconitique dans l'éthanol. Les conditions de test catalytiques et la synthèse du catalyseur ont été optimisées. Les caractéristiques des différents catalyseurs testés ont été réalisées en faisant recours à des techniques analytiques complémentaires (SBET, Analyse chimique, DRX, XPS et MET) afin de corréler les propriétés de surface à l'activité catalytique / This thesis is focused on the catalytic conversion of aconitic acid (a co-product of sugarcane industry) into molecules of industrial interest, by two catalytic ways. 1) By homogeneous catalysis, the acid hydrogenation into polyols, was carried out in a batch reactor using a Ru complex [Ru(acac)3/Triphos]. The various reaction parameters was optimized in the model reaction of hydrogenation of succinic acid into 1.4-butanediol. Subsequently, these optimal reaction conditions were used for the hydrogenation of aconitic acid and resulted to a predominant formation of 2-methyl 1,4-butanediol. 2) By heterogeneous catalysis, the hydro-cyclization reaction of aconitic acid into MTHF or lactones, was performed in a continuous reactor in the presence of copper catalysts, using aconitic acid solutions in ethanol as substrate. The different conditions of the catalytic test and catalyst synthesis was optimized. Furthermore, the different catalysts tested in this thesis work was characterized using complementary techniques (BET, Elementary analysis, XRD, XPS and TEM) in order to correlate the superficial properties to the catalytic activity

Catalyse homogène

Hydrogénation

Acide succinique

Acide aconitique

MTHF

Lactone

Polyols

Catalyse hétérogène

Homogeneous catalysis

Hydrogenation

Succinic acid

Aconitic acid

MTHF

Lactone

Polyols

Heterogeneous catalysis

541.395

hidroxilação de alcano por sistemas suportados em sílica e estudos exploratórios da oxidação do contaminante emergente triclosan

Falcão, Nathália Kellyne Silva Marinho

05 February 2016

Submitted by Maike Costa (maiksebas@gmail.com) on 2017-06-28T12:13:34Z No. of bitstreams: 1 arquivototal.pdf: 5054699 bytes, checksum: b0c36e922ea87a1775b247b54f1978c1 (MD5) / Made available in DSpace on 2017-06-28T12:13:34Z (GMT). No. of bitstreams: 1 arquivototal.pdf: 5054699 bytes, checksum: b0c36e922ea87a1775b247b54f1978c1 (MD5) Previous issue date: 2016-02-05 / Coordenação de Aperfeiçoamento de Pessoal de Nível Superior - CAPES / Conselho Nacional de Pesquisa e Desenvolvimento Científico e Tecnológico - CNPq / In this work, cytochrome P450-inspired biomimetic oxidation systems were developed for aliphatic C–H bond activation and triclosan oxidation. Heterogenization of Mn(III) N-pyridylporphyrin derivatives onto silica gel resulted in three groups of catalysts. Immobilization of Mn(III) N-pyridylporphyrins (MnT-X-PyPCl, X = 2, 3, 4) on chloropropylfunctionalized silica gel (Sil-Cl) yielded the first group of catalysts, Sil-Cl/MnT-X-PyPCl. The second group was prepared by in situ methylation of Sil-Cl/MnT-X-PyPCl materials resulting in the Sil-Cl/MnT-X-PyPCl/MeOTs materials. Finally the third group of catalysts were prepared via electrostatic immobilization of Mn(III) N-methylpyridiniumporphyrins (MnTM-X-PyPCl5, X = 2, 3, 4) onto unfunctionalized silica gel to yield SiO2/MnTM-XPyPCl5 (X = 2, 3, 4). These materials were studied as catalysts for iodosylbenzene-based hydroxylation reactions of the model substrate cyclohexane. The heterogenized catalysts proved to be more efficient, selective and oxidatively stable than the corresponding homogeneous systems for cyclohexane oxidation. No significant loss in catalytic efficiency was observed upon recycling of these materials. The increase in Mn(III)/Mn(II) reduction potentials associated with the alkylation of the pyridyl moieties of Sil-Cl/MnT-XPyPCl/MeOTs (X = 2, 3, 4) materials did not result in significant changes in catalytic efficiency as compared with the non-methylated starting materials Sil-Cl/MnT-X-PyPCl (X = 2, 3, 4). The PhIO-oxidation of the emerging contaminant triclosan under homogenous conditions was carried out using Mn porphyrins as biomimetic catalysts for P450-based xenobiotic degradation. The second generation catalyst Mn(III) meso-tetrakis(2,6- dichlorophenyl)porphyrin chloride, MnTDCPPCl, was more efficient and oxidatively stable than its first generation analogue Mn(III) meso-tetraphenylporphyrin chloride, which was considerably destroyed during the reactions. GC-FID, HPLC-DAD and LC-MS/MS analyses were used to confirm the formation of two products already identified as in vivo metabolites of triclosan: 4-chlorocatechol and 2,4-dichlorophenol. LC-MS/MS spectra of reation mixture indicated the formation of four additional triclosan degradation products (m/z 270, 323, 448, and 483), whose structural identity and biological relevance have yet to be confirmed. / Neste trabalho foram desenvolvidos modelos biomiméticos dos citocromos P450 pela heterogeneização das N-piridilporfirinas de Mn(III) em sílica-gel, resultando em três classes de catalisadores. A primeira classe descreve a imobilização das N-piridilporfirinas de Mn(III) (MnT-X-PyPCl, X = 2, 3, 4) em sílica-gel funcionalizada com o grupo cloropropila (Sil-Cl), a segunda classe envolve a metilação in situ dos materiais obtidos anteriormente e a terceira classe corresponde ao ancoramento eletrostático das N-metilpiridinioporfirinas de Mn(III) (MnTM-X-PyPCl5, X = 2, 3, 4) em sílica-gel in natura, sendo denominados como Sil-Cl/MnT-X-PyPCl, Sil-Cl/MnT-X-PyPCl/MeOTs e SiO2/MnTM-X-PyPCl5 (X = 2, 3, 4), respectivamente. Estes materiais foram empregados em reações de hidroxilação do substrato modelo cicloexano por iodosilbenzeno (PhIO). Os catalisadores heterogeneizados mostram-se mais eficientes, seletivos e resistentes à destruição catalítica do que os sistemas em fase homogênea, além de não serem observadas perdas significativas na eficiência catalítica após reúsos desses materiais. O aumento do potencial de redução Mn(III)/Mn(II) associado ao aumento do grau de alquilação nos catalisadores Sil-Cl/MnT-X-PyPCl/MeOTs (X = 2, 3, 4) não levaram a alterações significativas na eficiência catalítica desses materiais em comparação aos materiais de partida Sil-Cl/MnT-X-PyPCl (X = 2, 3, 4). A investigação da atividade catalítica das Mn-porfirinas de primeira e segunda geração, cloreto de mesotetrafenilporfirinatomanganês (III) (MnTPPCl) e cloreto de meso-tetraquis(2,6- diclorofenil)porfirinatomanganês (III) (MnTDCPPCl), na oxidação do contaminante emergente triclosan revelou que estes modelos biomiméticos podem efetuar a degradação deste xenobiótico. A MnTDCPPCl mostrou-se mais eficiente do que seu análogo de primeira geração MnTPPCl, que foi mais degradado durante as reações. Pelas técnicas de GC-FID, HPLC-DAD e LC-MS/MS foi possível confirmar a formação de dois produtos já identificados na literatura como metabólitos in vivo: 4-clorocatecol e 2,4-diclorofenol. Ainda por LC/MS-MS pode-se identificar a formação de mais quatro produtos de degradação do triclosan ainda não definidos (m/z 270, 323, 448 e 483)

Porfirinas de Mn

Modelos biomiméticos

Catálise

Sílica-gel

Catálise heterogênea

Triclosan

Mn porphyrins

Biomimetic catalysis

Silica gel

Heterogeneous catalysis

CIENCIAS EXATAS E DA TERRA::QUIMICA

S?ntese, caracteriza??o e aplica??o de LaSBA-15 e como catalisador para obten??o de biodiesel de soja via rota et?lica

Ara?jo, Larissa Cicianny Luz Ferreira de

04 July 2011

Made available in DSpace on 2014-12-17T14:08:46Z (GMT). No. of bitstreams: 1 LarissaCLA_DISSERT.pdf: 2411784 bytes, checksum: bc6175bf8ed881abf12e8c0d17d59264 (MD5) Previous issue date: 2011-07-04 / Biodiesel is an alternative fuel, renewable, biodegradable and nontoxic. The transesterification of vegetable oils or animal fat with alcohol is most common form of production of this fuel. The procedure for production of biodiesel occurs most commonly through the transesterification reaction in which catalysts are used to accelerate and increase their income and may be basic, acid or enzyme. The use of homogeneous catalysis requires specific conditions and purification steps of the reaction products (alkyl ester and glycerol) and removal of the catalyst at the end of the reaction. As an alternative to improve the yield of the transesterification reaction, minimize the cost of production is that many studies are being conducted with the application of heterogeneous catalysis. The use of nano-structured materials as catalysts in the production of biodiesel is a biofuel alternative for a similar to mineral diesel. Although slower, can esterify transesterified triglycerides and free fatty acids and suffer little influence of water, which may be present in the raw material. This study aimed at the synthesis, characterization and application of nano-structured materials as catalysts in the transesterification reaction of soybean oil to produce biodiesel by ethylic route. The type material containing SBA-15 mesoporous lanthanum embedded within rightly Si / La = 50 was used catalyst. Solid samples were characterized by X-ray diffraction, thermogravimetric analysis, infrared spectroscopy, nitrogen adsorption and desorption. For the transesterification process, we used a molar ratio of 20:1 alcohol and oil with 0.250 g of catalyst at 60?C and times of 6 hours of reaction. It was determined the content of ethyl esters by H-NMR analysis and gas chromatography. It was found that the variable of conversion obtained was 80%, showing a good catalytic activity LaSBA-15 in the transesterification of vegetable oils via ethylic route / O biodiesel ? um combust?vel alternativo, renov?vel, biodegrad?vel e n?o t?xico. A transesterifica??o dos ?leos vegetais ou gordura animal com ?lcool ? a forma mais usual de produ??o desse combust?vel. O procedimento de produ??o de biodiesel ocorre mais comumente atrav?s da rea??o de transesterifica??o, na qual se utiliza catalisadores para acelerar e aumentar seu rendimento, podendo ser b?sico, ?cido ou enzim?tico. O uso da cat?lise homog?nea requer condi??es e etapas espec?ficas de purifica??o dos produtos da rea??o (?ster alqu?licos e glicerol) e remo??o do catalisador ao t?rmino da rea??o. Como alternativa para melhorar o rendimento da rea??o de transesterifica??o, minimizar os custos com a produ??o ? que muitos estudos est?o sendo realizados com aplica??o de cat?lise heterog?nea. O uso de materiais nano-estruturados como catalisadores na produ??o de biodiesel ? uma alternativa para obter um biocombust?vel semelhante ao diesel mineral. Mesmo sendo mais lentos, conseguem transesterificar os triglicer?deos e esterificar os ?cidos graxos livres, al?m de sofrerem pouca influ?ncia da ?gua, que possa estar presente na mat?riaprima. Este trabalho teve como objetivo a s?ntese, caracteriza??o e aplica??o de materiais nano-estruturados como catalisadores na rea??o de transesterifica??o de ?leo de soja, para obten??o de biodiesel pela rota et?lica. O material do tipo SBA-15 contendo lant?nio incorporado na estrutura mesoporosa, com raz?o Si/La=50, foi utilizado como catalisador. As amostras s?lidas foram caracterizadas por difra??o de raios-X, an?lise termogravim?trica, espectroscopia na regi?o do infravermelho, adsor??o e dessor??o de nitrog?nio. Para o processo de transesterifica??o, utilizou-se uma raz?o molar entre ?lcool e ?leo de 20:1 com 0,250 g de catalisador, temperatura de 60?C e tempos de 6 horas de rea??o. Determinou-se o teor de ?steres et?licos pela an?lise de H-RMN e cromatografia a g?s. Foi verificado que a vari?vel de convers?o obtida foi de 80%, mostrando uma boa atividade catal?tica do LaSBA- 15 na transesterifica??o do ?leo de soja via rota et?lica

LaSBA-15

Catalise heterog?nea

Etan?lise

Biodiesel

LaSBA-15

Heterogeneous catalysis

Ethanolysis

Biodiesel

Biodiesel de óleo de fritura via hidroesterificação utilizando vermiculita como catalisador heterogêneo. / Biodiesel from frying oil via hydroesterification using vermiculite as a heterogeneous catalyst.

LACERDA, José Gorete Pedroza de.

14 May 2018

Submitted by Johnny Rodrigues (johnnyrodrigues@ufcg.edu.br) on 2018-05-14T18:16:58Z No. of bitstreams: 1 JOSÉ GORETE PEDROZA DE LACERDA - DISSERTAÇÃO PPGSA PROFISSIONAL 2018..pdf: 627104 bytes, checksum: 45e4786f3d9dfa64c01ee838695e2239 (MD5) / Made available in DSpace on 2018-05-14T18:16:58Z (GMT). No. of bitstreams: 1 JOSÉ GORETE PEDROZA DE LACERDA - DISSERTAÇÃO PPGSA PROFISSIONAL 2018..pdf: 627104 bytes, checksum: 45e4786f3d9dfa64c01ee838695e2239 (MD5) Previous issue date: 2018-03-05 / Este trabalho investigar a síntese do biodiesel proveniente do óleo de fritura através da reação de hidroesterificação, utilizando como suporte catalítico heterogêneo, a vermiculita. A hidrólise foi efetuada em reator de autoclave numa temperatura de 300 ºC por 3 h, e em seguida, a esterificação foi realizada sob razão molar do álcool etílico/ácido graxo na proporção 6:1, na presença de 5% do catalisador em relação à massa do óleo. Tanto o biodiesel e o óleo de fritura foram caracterizados por meio de parâmetros físico-químico, térmicos e por espectrofotometria de absorção na região do UV-Visível com fins de melhor compreensão. O rendimento reacional em relação à massa do óleo de fritura residual para o biodiesel foi de 66,65%. A curva termogravimétrica referente ao biodiesel apresentou duas etapas de decomposição, sendo a primeira etapa com 83,1% de perda de massa, indicando a conversão em monoacilglicerideos, e a segunda com 14,3% de perda de massa, atribuída a presença de traços de diacilglicerídeos e/ou triacilglicerídeos não convertida em ésteres de ácidos graxos etílicos. Os espectros de absorção na região do infravermelho confirmaram a presença dos ésteres de ácidos graxos etílicos em 1749,7 cm-1, no entanto, também verificou presença de banda vibracional correspondente ao estiramento do grupo OH, em 3600 a 3300 cm-1, confirmando presença de umidade e/ou a não conversão total da hidrólise de glicerídeos. Por fim, este trabalho demonstrou ser satisfatório em termos de conversão, embora requeira um estudo mais aprofundado, manipulando as condições reacionais. / This study aimed to investigate the synthesis of biodiesel from frying oil through the hydroesterification reaction, using as heterogeneous catalytic support – vermiculite. Both the biodiesel obtained and the raw material (frying oil) were characterized by physical-chemical, thermal and absorption spectrophotometry in the UV-Visible region for better understanding. The synthesis of biodiesel by hydroesterification involved two steps: hydrolysis and esterification, whereby the residual frying oil was subjected to the step of hydrolysis in an autoclave reactor at a temperature of 300 ° C for 03 hours. After the hydrolysis, the glycerin was removed and the fatty acids generated were subjected to the esterification step and processed under the following conditions: 6: 1 molar ratio of the ethyl alcohol / fatty acid in the presence of 5% of the catalyst (vermiculite) relative to the mass of the oil. Subsequently, the mixture was subjected to the stirring process and transferred to the autoclave reactor at 200°C for 01 hour. After that, the mixture was decanted for 2 hours and the phases were separated. The dense phase – biodiesel – was characterized according to the standards of the National Agency for Petroleum, Natural Gas and Biofuel. Thus, the reaction yield in relation to the initial mass of the residual frying oil for biodiesel was 66.65%. It is suggested that this yield was compromised by the acidity of the obtained biodiesel (0.61mg KOH/g), contributing to the release of the free fatty acids in the medium. Regarding the thermal study, the thermogravimetric curves showed that biodiesel is more volatile compared to the frying oil and presented two stages of decomposition: the first probably corresponding to the ethyl ester volatilization, with 83.1% of mass loss, indicating the conversion to monoacylglycerides; and the second stage with 14.3% of mass loss, attributed to the presence of diacylglyceride and/or triacylglyceride traces not converted to esters of ethyl fatty acids. The absorption spectra in the infrared region confirmed the presence of the strongly acidic fatty acid esters of 1749.7 cm-1; however, the presence of medium-sized vibrational band, corresponding to OH group stretching, is also present at 3600 to 3300cm-1, corroborating the thermal and physicochemical profile, confirming the presence of moisture and/or total nonconversion of glyceride hydrolysis. Finally, according to the results presented, this study proved to be feasible in terms of conversion, although it requires further investigation, manipulating the reactional conditions.

Engenharia Química

Biodiesel

Catálise heterogênea

Óleo de fritura residual

Síntese do biodiesel

Reação de hidroesterificação

Vermiculita

Heterogeneous catalysis

Residual frying oil

Catalisador vermiculita

Análise termogravimétrica

Biodiesel synthesis

Reaction of hydroesterification

Síntese de catalisadores utilizando garrafa pet para a produção de biodiesel. / Synthesis of PET bottle using catalysts for biodiesel production

Souza, Juliana Kelly Dionízio de

17 September 2012

Made available in DSpace on 2015-05-14T13:21:19Z (GMT). No. of bitstreams: 1 ArquivoTotal.pdf: 4834263 bytes, checksum: 9a0661df73e9955af44f0e37d15bf261 (MD5) Previous issue date: 2012-09-17 / Coordenação de Aperfeiçoamento de Pessoal de Nível Superior - CAPES / The heterogeneous catalysis is a promising alternative to solve the environmental problems found in homogeneous catalysis, because it allows the continuous use of the catalyst until its deactivation and minimizes the generation of effluents. Thus, this work aims to synthesize, optimize and evaluate the activity of heterogeneous catalysts, using PET bottles as a starting material in the synthesis of the active phase and SiO2 as catalyst support for the transesterification reaction of soybean oil. The the catalysts were obtained by a impregnating reaction using methanol. The active phase, the catalysts and catalyst support were characterized by X-ray diffraction (XRD), infrared (IR), Raman spectroscopy, scanning electron microscopy (SEM) and EDS, thermal analysis (TG) and measurement surface area (BET). The biodiesels has been synthesized using a molar ratio of 1:9 (soybean oil: methanol), 0,1 g of active phase as catalyst (room temperature) and 1,2 g of the catalysts synthesized at 75 °C, where its kinematic viscosities were measurements. All catalysts were effective in the synthesis of biodiesel because the viscosity reduction of soybean oil used was very significant, indicating that may have occurred the transesterification process, among all biodiesels synthesized the catalyst that stood out was the 30%-K2CO3/70% SiO2, which was obtained greater viscosity reduction at a lower reaction time. The quality tests were made for 1h Bio-30%, which proved be inside the parameters established by the Agência Nacional de Patróleo (ANP). The experiment reuse of the catalyst used in the synthesis of Bio-1h 30%, showed that the catalytic activity is reduced due to possible leaching phenomenon, then preliminary studies have been proposed to study the possible leaching of the active phase. / A catálise heterogênea é uma alternativa promissora para resolver os problemas ambientais encontrados na catálise homogênea, pois permite o uso continuo do catalisador até sua desativação e minimiza a geração de efluentes. Neste sentido, este trabalho visa em sintetizar, otimizar e avaliar a atividade de catalisadores heterogêneos, utilizando a garrafa PET pós-consumo como matéria prima na síntese da fase ativa e SiO2 como suporte catalítico para a reação de transesterificação com óleo de soja. Os catalisadores foram obtidos pela o método de impregnação utilizando o metanol como solvente. A fase ativa, os catalisadores e o suporte catalítico foram caracterizados por difração de raios-X (DRX), espectroscopia na região do infravermelho (IV), espectroscopia Raman, microscopia eletrônica de varredura (MEV) e EDS, análise térmica (TG), e medida de área superficial (BET). Os biodieseis foram sintetizados utilizando uma razão molar de 1:9 (óleo de soja: metanol), 0,1 g da fase ativa como catalisador a temperatura ambiente e 1,2 g dos catalisadores sintetizados a 75 °C, onde suas viscosidades cinemáticas foram medidas. Todos os catalisadores foram efetivos na síntese do biodiesel, pois promoveu a redução de viscosidade do óleo de soja utilizado, no qual mostrou um indicativo que a reação de transesterificação ocorreu, dentre todos os biodieseis sintetizados o catalisador que mais se destacou foi o 30%-K2CO3/70%-SiO2, onde obteve-se a maior redução de viscosidade com um menor tempo reacional. Os testes de qualidade foram feitos para o Bio 1h-30%, o qual mostrou estar dentro dos parâmetros estabelecidos pela Agência Nacional de Petróleo (ANP). O experimento de reuso do catalisador utilizado na síntese do Bio 1h-30%, mostrou que a atividade catalítica é reduzida devido ao possível fenômeno de lixiviação, então estudos preliminares foram propostos para estudar a possível lixiviação da fase ativa.

Química orgânica

Catálise heterogênea

Biodíesel - produção - garrafa PET

Garrafa PET - reaproveitamento

Organic chemistry

Heterogeneous catalysis

PET-bottle recycling

CIENCIAS EXATAS E DA TERRA::QUIMICA

Génération d’hydrogène par vaporeformage oxydant de l’éthanol à basse température sur des catalyseurs cérium-nickel et aluminium ou zirconium / Hydrogen generation by low temperature oxidative steam reforming of ethanol on cerium-nickel based catalysts, with aluminum or zirconium

Romani, Yann, Mikey

19 December 2017

Un des enjeux actuels pour la production d’énergie propre est la transformation de la biomasse en hydrogène. Dans cette optique, la production d’hydrogène est étudiée par vaporeformage oxydant de l’éthanol (OSRE) à basse température sur des catalyseurs oxydes mixtes CeNixOy, dopés ou non avec Al ou Zr. Ces catalyseurs ont été synthétisés par coprécipitation puis caractérisés via différentes techniques physico-chimiques. L’influence de différents paramètres a été étudiée comme les rapports O2/EtOH et H2O/EtOH, ou la teneur en nickel dans les catalyseurs. De bons résultats ont été obtenus en vaporeformage autotherme de l’éthanol à 300°C. A une température de four de 50°C, ces catalyseurs nano-oxyhydrures riches en espèces hydrures permettent une activité extrêmement intéressante du catalyseur même avec des concentrations élevées en eau. En effet, dans les conditions EtOH/H2O/O2 égales à 1:7:1,6, les catalyseurs ternaires CeNixM0,5Oy (M = Al ou Zr), prétraités sous H2, permettent une conversion en éthanol supérieure à 90 % avec un pourcentage d’H2 de 50 à 60% dans la distribution de produits. L’augmentation du rapport en eau diminue cependant la température du catalyseur, ce qui diminue le pourcentage de CO dans la distribution de produits en augmentant la formation de carbone. Les caractérisations mettent en évidence l’importance de la présence d’interactions fortes entre Ce et Ni (et Al ou Zr dans le cas des catalyseurs ternaires), en accord avec la présence d’une solution solide Ce-Ni-(M)-O (M = Al ou Zr). Finalement, un site actif comportant des cations en interaction forte et un mécanisme réactionnel faisant intervenir des espèces hydrures peuvent être proposé / Nowadays, one of the main challenges for green energy production is biomass transformation into hydrogen. To this purpose, hydrogen production is studied by low temperature oxidative steam reforming of ethanol (OSRE) over CeNixOy (with or without Al or Zr) mixed oxide catalysts. These catalysts have been synthesized by coprecipitation and characterized by different physicochemical characterizations. The influence of different parameters has been studied such as O2/EtOH and H2O/EtOH ratios as well as the nickel content in the catalysts. Good results are obtained in autothermal steam reforming of ethanol at 300°C. With an oven temperature at 50°C, the nano-oxyhydrides catalysts containing high amounts of hydride species allow very interesting activities even in presence of high concentration of water. Indeed, in EtOH/H2O/O2 = 1:7:1.6 conditions, pretreated in H2 CeNixM0.5Oy (M = Al or Zr) ternary catalysts, allow an ethanol conversion higher than 90%, with a H2 formation between 50 to 60% in the products distribution. A high water content (H2O/EtOH) decreases the catalyst temperature, and leads to low CO formation but raises carbon formation. The characterizations evidence the importance of the presence of strong interactions between Ce and Ni species (and Zr or Al for ternary catalysts), in agreement with the presence of a Ce-Ni-(M)-O (M = Al or Zr) solid solution. Finally, an active site involving cations in strong interaction and a mechanism involving hydride species can be proposed.

Catalyse hétérogène

Vaporeformage oxydant

Hydrogène

Ethanol

Cérium

Nickel

Oxyhydrure

Basse température

Heterogeneous catalysis

Oxidative steam reforming

Hydrogen

Ethano

Cerium

Nickel

Oxyhydride

Low temperature

Toward green processes organic synthesis by catalysis with metal-doped solids / Vers des procédés verts : synthèse organique par catalyse avec des solides dopés aux métaux

Borghèse, Sophie

15 February 2013

De nos jours, l’industrie chimique est de plus en plus confrontée à la question de son impact environnemental. Dans le même temps, elle doit faire face à la diminution des ressources de matières premières importantes tels que les métaux de transition, tout en respectant des contraintes économiques. Ces travaux de thèse avaient pour but de tenter de répondre à ces exigences, par le développement de méthodologies de synthèse basées sur l’utilisation de catalyseurs hétérogènes recyclables. En combinant les propriétés catalytiques de certains ions métalliques avec les propriétés de catalyseurs solides tels que les polyoxométallates ou les zéolithes, nous avons pu mettre au point de nouveaux outils pour la synthèse organique. Les polyoxométallates dopés à l’argent ont démontré leur efficacité dans le réarrangement d’alcynyloxiranes en furanes. La synthèse de spiroacétals et d’acétals par dihydroalkoxylation d’alcyne diols a été effectuée pour la première fois en catalyse à l’argent, via l’utilisation de zéolithes. En perspective, nous avons mis en évidence les applications potentielles de ces procédés verts dans la synthèse totale de molécules plus complexes. Les premiers résultats suggèrent que de telles synthèses plus respectueuses de l’environnement ont tout intérêt à être davantage utilisées à l’avenir. / Nowadays, the modern chemical industry has to deal with increasing environmental concerns, including the disposal of waste and its economic impact, or the diminution of important worldwide resources such as transition metals. In this Ph.D. thesis, we aimed to bring improvement in this area by the development of green processes, based on the use of recyclable heterogeneous catalysts. By combining the catalytic properties of several metal cations with the properties of solid catalysts such as polyoxometalates or zeolites, we were able to set up new tools for organic synthesis. Silver-doped polyoxometalates proved to be very efficient catalysts in the rearrangement of alkynyloxiranes to furans. Acetals and spiroketals were synthetized by dihydroalkoxylation of alkynediols under catalysis with silver-zeolites. As a perspective, we highlighted the potential applications of such green procedures in the total synthesis of more complex molecules. The first results suggested that these environmental friendly processes should gain increasing interest in the future.

Chimie verte

Catalyse hétérogène

Polyoxométallates

Furanes

Zéolithes

Spiroacétals

Alcanes

Transfert d'hydrure

Green chemistry

Heterogeneous catalysis

Polyoxometalates

Furans

Zeolites

Spiroketals

Alkanes

Hydride transfer

541.39

Plasmonic, electrical and catalytic properties of one-dimensional copper nanowires:effect of native oxides

Hajimammadov, R. (Rashad)

24 April 2018

Abstract Recent advances in materials synthesis resulted in a rediscovery of the low cost copper in its one and two-dimensional forms and project newer applications of this metal in fields not considered before. In this thesis, one-dimensional copper, i.e. nanowires are synthesized by a hydrothermal route and explored for their chemical, electrical, catalytic and plasmonic properties with highlighted advantages, benefited from their size and shape compared to thin film and bulk copper. Characterization of copper nanowires and their native oxides were performed using a number of analytical techniques such as X-ray photoelectron and Auger spectroscopy, Raman spectroscopy, X-ray diffraction as well as scanning probe and electron microscopy techniques to elucidate the oxidation mechanism and to assess the feasibility of the oxidized materials for various applications. A few atomic layers of cuprous oxide seem to form on the surface of the nanowires instantly, maybe already during synthesis, which then slowly grows further when exposing the nanowires to ambient air leading to the appearance of cupric oxide as well. Because of the surface oxides, individual nanowires and their bundled networks exhibit semiconducting behavior, which complicates the direct use of such materials for interconnections in electronics. However, even with the presence of native oxides, copper nanowires hold promise in many other applications such as the ones explored here for plasmonics and heterogeneous catalysis. As demonstrated in this work, surface plasmon absorption properties of the nanowires can be exploited for chemical sensing of surface adsorbed molecules (model compound Rhodamine 6G) by efficiently amplifying its Raman spectrum without using any lithographically defined sensor template. Further, it is shown that phenol contamination in water may be efficiently eliminated by converting it to nontoxic polyphenol as well as to CO2 owing to the highly efficient catalytic property of the mixed oxide phases on the surface of the nanowires. The results published in this thesis contribute to the understanding of the chemical and physical behavior of copper nanowires and other low dimensional copper nanostructures that undergo rapid surface oxidation. / Tiivistelmä Jatkuva elektronisten laitteiden ja anturien pienentäminen on hyvin linjassa teknologian kehittymisen kanssa. Pyrkimys monitoimisiin ja tehokkaisiin materiaaleihin on muuttanut tavanomaisten materiaalien käsitystä. Viimeisimmät edistysaskeleet materiaalisynteesissä ovat johtaneet edullisen kuparin uudelleenlöytämiseen sen yksi- ja kaksidimensionaalisissa muodoissa ennustaen metallille uusia sovellutuksia alueilla, joissa sitä ei ole aiemmin hyödynnetty. Tässä väitöstyössä on tutkittu hydrotermisesti syntetisoitujen yksiulotteisten kuparinanojohtimien kemiallisia, sähköisiä, katalyyttisiä ja plasmonisia ominaisuuksia sekä näiden pieneen kokoon ja muotoon perustuvia etuoja ohutkalvo- ja bulkkikupariin verrattuna. Kuparinanojohtimia ja niiden luonnollisia oksideja karakterisoitiin useilla analyysitekniikoilla kuten röntgenelektroni- ja Auger-eletronispektroskopialla, Raman-spektroskopialla, röntgendiffraktiolla sekä pyyhkäisykärki- ja elektronimikroskopialla selvittäen hapettumismekanismeja ja oksidien soveltuvuutta eri käyttötarkoituksiin. Muutaman atomikerroksen paksuinen kupari(I)oksidikerros havaittiin muodostuvan välittömästi, luultavasti jo materiaalisynteesin aikana nanojohtimien pinnalle. Nanojohtimien altistuessa ympäröivälle ilmalle oksidikerros kehittyi hitaasti johtaen kupari(II)oksidin muodostumiseen. Pintaoksidien johdosta yksittäiset nanojohtimet ja niistä yhteenkasautuneet verkostot käyttäytyvät puolijohdemaisesti mikä monimutkaistaa näiden materiaalien käyttöä sellaisenaan elektroniikan johtimissa. Luonnollisista oksideista huolimatta kuparinanojohtimet ovat lupaavia monissa muissa sovelluksissa, kuten tässä työssä tutkituissa plasmonisessa ja heterogeenisessä katalyysissä. Väitöstyössä osoitetaan, että nanojohtimen pintaplasmonisia absorptio-ominaisuuksia voidaan hyödyntää pintaan absorboituneiden molekyylien kemiallisessa havainnoinnissa (mallinnettu yhdiste rodamiini 6G) vahvistamalla Raman–spektriä käyttämättä lainkaan litografiapohjaista anturisapluunaa. Myöskin vesien fenolikontaminaatio voidaan tehokkaasti muuntaa myrkyttömiksi polyfenoleiksi ja hiiidioksidiksi hyödyntämällä nanojohtimien pinnalla olevia oksideja tehokkaana katalyyttinä (jopa parempi kuin kaupallisten kupariin pohjautuvat katalyytit). Tässä väitöstyössä julkaistut tulokset edistävät kuparinanojohtimien sekä muiden pienikokoisten ja nopeasti hapettuvien kuparinanorakenteiden kemiallisen ja fyysisen käytöksen ymmärtämistä. Tieteellisten kehitysaskeleiden lisäksi tämä väitöstyö voi myös toimia lähteenä pienirakenteisten yleisten metallien sovelluksille.

copper nanowires

copper oxides

heterogeneous catalysis

plasmonic sensors

surface enhanced Raman spectroscopy

heterogeeninen katalyysi

kuparinanojohtimet

kuparioksidit

pintatehostettu Raman sironta

plasmoniset anturit