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Homogeneous Catalysts For The Hydrolysis Of Sodium Borohydride: Synthesis, Characterization And Catalytic UseMasjedi, Mehdi 01 August 2010 (has links) (PDF)
Recent study has shown that ruthenium(III) acetylacetonate acts as a homogeneous catalyst in the hydrolysis of sodium borohydride. When two equivalents of trimethylphosphite per ruthenium is added to the reaction solution containing sodium borohydride and ruthenium(III) acetylacetonate in the mixture of water and tetrahydrofuran, the rate of hydrogen generation is practically stopped (or reduced to the level of self hydrolysis). However, the catalytic hydrogen evolution of sodium borohydride restarts at an unexpectedly high rate in a certain period of time (induction time) after addition of trimethylphosphite. Consequently, trimethylphosphite known to be a poison in the hydrolysis, is involved in the formation of a new active catalyst (ruthenium species containing trimethylphosphite ligands) which has much higher catalytic activity in comparison with sole ruthenium(III) acetylacetonate. The same rate enhancement is observed by addition of two equivalents of triphenylphosphite per ruthenium into the medium. Varying the phosphorus compound affects not only the life time of catalyst but also the kinetic and activation parameters of the hydrolysis of sodium borohydride. However, varying the mole ratio of phosphorus compound to ruthenium does not affect the rate of hydrolysis or in other words, the rate of hydrogen generation is independent of phosphite concentration.
Trans- and cis-[Ru(acac)2{P(OMe)3}2] complexes do not show significant catalytic activity in hydrogen generation of sodium borohydride. However, catalytic activity of cis-isomer is highly increased in the presence of two equivalents of trimethylphosphite, showing that the active catalyst formed during hydrolysis of sodium borohydride starting with Ru(acac)3 or cis-[Ru(acac)2{P(OMe)3}2], has more than two phosphine ligands. For the first time, a ruthenium(I) complex was isolated from aqueous solution after finishing the catalytic hydrolysis of sodium borohydride starting with ruthenium(III) acetylacetonate and trimethylphosphite. Hydridotetrakis(trimethylphosphite)ruthenium(I), [Ru{P(OMe)3}4H] was isolated and characterized by single crystal X-ray diffraction, Mass, UV-visible, FTIR, 1H, 13C and 31PNMR spectroscopy. Following the catalytic reaction by UV-Visible spectroscopy shows in-situ formation of a Ru(II) species which is mostly converted back to ruthenium(III) acetylacetonate after hydrolysis reaction along with formation of [Ru{P(OMe)3}4H] complex as a minor product. Although Ru(II) species could not be isolated, adding 1 equivalent of 2,2' / -bipyridine yielded [Ru(acac)(bipy){P(OMe)3}H] complex which could be isolated and characterized by Mass, UV-Visible, FTIR, 1H, 13C and 31PNMR spectroscopy. In-situ generated Ru(II) species has much higher catalytic activity in comparison with its stabilized form [Ru(acac)(bipy){P(OMe)3}H] or [Ru{P(OMe)3}4H] complex. Conclusively, the fac-[Ru(acac){P(OMe)3}3H] complex is believed to be the in-situ generated Ru(II) species and the active catalyst in the hydrolysis of sodium borohydride.
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Ruthenium(iii) Acetylacetonate As Catalyst Precursor In The Dehydrogenation Of Dimethylamine-boraneUnel, Ebru 01 February 2011 (has links) (PDF)
Amine boranes have recently been considered as solid hydrogen storage materials with high capability of hydrogen storage. Dimethylamine borane is one of the promising amine boranes with high theoretical gravimetric capacity of 16.9 wt%. Dimethylamine borane can undergo dehydrogenation only in the presence of a suitable catalyst at moderate temperature.
In this project, throughout the dehydrogenation of dimethylamine borane (DMAB), the catalytic activity of ruthenium(III) acetylacetonate was examined for the first time. During the catalytic reaction, formation of a new in-situ ruthenium(II) species, [Ru{N2Me4}3(acac)H], is observed. Mercury poisoning experiment indicates that the in-situ ruthenium(II) species is a homogeneous catalyst in the dehydrogenation of dimethylamine borane. Kinetics of catalytic dehydrogenation of dimethylamine borane starting with ruthenium(III) acetylacetonate was investigated depending on catalyst concentration, substrate concentration and temperature. As a result, the hydrogen generation rate was found to be first-order with respect to catalyst concentration and zero-order regarding the substrate concentration. Besides, evaluation of the kinetic data yielded that the activation parameters for dehydrogenation reaction: the activation energy, Ea = 85 ± / 2 kJ&bull / mol-1 / the enthalpy of activation, DH# = 82 ± / 2 kJ&bull / mol-1 and the entropy of activation / DS# = -85 ± / 5 J&bull / mol-1&bull / K-1. Additionally, before deactivation, [Ru{N2Me4}3(acac)H] provides 1700 turnovers over 100 hours in hydrogen evolution from the dehydrogenation of dimethlyamine borane. [Ru{N2Me4}3(acac)H] complex formed during the dehydrogenation of dimethylamine borane was isolated and characterized by UV-Visible, FTIR, 1H NMR, and Mass Spectroscopy. The isolated ruthenium(II) species was also tested as homogeneous catalyst in the dehydrogenation of dimethylamine borane.
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Dendrimer-encapsulated metal nanoparticles: synthesis, characterization, and applications to catalysisNiu, Yanhui 30 September 2004 (has links)
The research in this dissertation examines the chemistry and applications of dendrimers in homogeneous catalysis. We examined interactions between dendrimers and charged probe molecules, prepared dendrimer-encapsulated metal nanoparticles in organic solvents, studied size-selectivity of dendrimer-encapsulted catalysts, and designed molecular rulers as in-situ probes to measure the location of dendrimer-encapsulted metal nanoparticles.
The intrinsic proton binding constant and a constant that characterizes the strength of electrostatic interactions among occupied binding sites in poly(amidoamine) (PAMAM) dendrimers have been obtained by studying the effect of solution pH on the protonation of the dendrimers. The significant finding is that these two factors are greatly modulated by the unique and hydrophobic microenvironment in the dendrimer interior.
Hydrophilic poly(propylene imine) (PPI) dendrimers were modified with various hydrophobic alkyl chains through an amide linkage and were then used as templates for preparing intradendrimer copper nanoclusters. The main driving force for encapsulating metal-ions was found to be the differences in metal-ion solubility between the solvent and the interior of the dendrimer.
Nanometer-sized metal particles are synthesized and encapsulated into the interior of dendrimers by first mixing together the dendrimer and metal ion solution and then reducing the composite chemically, and the resulting dendrimer-encapsulated metal nanoparticles can then be used as catalysts. By controlling the packing density on the dendrimer periphery using either different dendrimer generations or dendrimer surface functionalities, it is possible to control access of substrates to the encapsulated catalytic nanoparticle.
Molecular rulers consisting of a large molecular "stopper", a reactive probe and a linker were designed as in-situ probes for determining the average distance between the surface of dendrimer-encapsulated palladium nanoparticles and the periphery of their fourth-generation, hydroxyl-terminated PAMAM dendrimer hosts. By doing so, we avoid having to make assumptions about the nanoparticle size and shape. The results suggest that the surface of the encapsulated nanoparticle is situated 0.7 ± 0.2 nm from the surface of the dendrimer.
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Indium complexes and their role in the ring-opening polymerization of lactideDouglas, Amy Frances 05 1900 (has links)
The synthesis and characterization of a series of chiral indium complexes bearing a tridentate NNO ligand are reported. The ligand 2-[[[(dimethylamino)cyclohexyl]amino]methyl]- 4,6-bis(tert-butyl) phenol (H₂NNO) was synthesized via a previously published procedure and bound to indium by both a protonolysis and salt metathesis route. A dimethylated indium complex (NNO)InMe₂ (1) was isolated by reaction of InMe₃ with H₂NNO. A one-pot saltmetathesis route was used to produce a unique mixed-bridge dinuclear indium complex [(NNO)InCl] ₂(μ-OEt)(μ-Cl) (3) from a mixture of indium trichloride, potassium ethoxide and the monopotassiated salt of the ligand, KH(NNO). Direct reaction of KH(NNO) and indium trichloride resulted in the formation of (NNO)InCl₂ (4) which was carried forward to 3 by reaction with sodium ethoxide.
The complex 3 is active for the ROP of β-butyrolactone ε-caprolactone and lactide and is the first reported indium-based catalyst for lactide or β-butyrolactone ROP. Kinetic studies of 3 for ROP of LA revealed that catalyst was well-behaved, and that the rate was first order with
regard to lactide and catalyst. The enthalpy and entropy of activation for the ROP were experimentally determined. Polymer produced by ROP by 3 has narrow molecular weight distribution and a good correlation is seen between the observed moleular weight and monomer loading. A mechanism was proposed for 3 acting as a catalyst for the ROP of lactide; however further experiments are required to confirm this mechanism. Polymer samples isolated from the
ROP of rac-lactide by rac-3 show isotactic enrichment. It is postulated that the chiral catalyst 3 is exerting stereocontrol via an enantiomorphic site control mechanism.
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N-heterocyclic carbenes as supporting ligands in homogeneous catalysisMarion, Nicolas 15 May 2008 (has links)
In the last ten years, N-heterocyclic carbenes(NHCs) have gained tremendouspopularity, notably as highly versatile ligands for transition metals. Their strong -donatingproperties, associated with high steric hindrance, often impart enhanced stability and activity to a given metallic center. Two main successes of the NHCs in homogeneous catalysis are arguably the ruthenium-mediated olefin metathesis and the palladium-promoted crosscoupling reactions.In this work, we have studied the effect of N-heterocyclic carbenes as supporting ligands in well-defined complexes of palladium(II), gallium(III), and gold(I) that we used in homogeneous catalysis.Notably, we have synthesized, in very straightforward manners, two families of palladium compounds of formulae [(NHC)Pd(L)Cl], where L, which is a R-allyl or R-acac moiety, acts as a protecting shell for the catalytically active [(NHC)Pd0] species. Hence,upon activation under the reaction conditions, these new Pd complexes were found extremely active in the Suzuki-Miyaura, the Buchwald-Hartwig, and the -ketone arylation cross-coupling reactions. More precisely, the more active "R-allyl family" allowed for reactions to be performed with as low as 10 ppm of palladium.A series of [(NHC)GaCl3] complexes wa synthesized via a simple one-step procedure. The resulting unprecedented NHC-GaIII compounds were found extremely stable but showed only moderate activity in isomerization reactions.Demonstrating further the versatile application of NHCs in metal-based catalysis, wedeveloped several new catalytic transformations using [(NHC)AuCl] complexes. Hence,these pre-catalysts, activated in situ with a silver salt, proved to be excellent activators ofalkynes, allenes, and alkenes. This led to the development of efficient synthetically usefulprotocols, encompassing enyne cycloisomerization, indene cyclization,formation of conjugated enone, and allylic rearrangement.KEYWORDS gallium - gold - homogeneous catalysis - N-heterocyclic carbene - palladium 8 / En los últimos diez años, los carbenos N-heterocíclicos (NHCs) han ganado una granpopularidad, especialmente como ligandos versátiles de metales de transición. Su fuertecarácter −donor, asociado con su gran impedimento estérico, confieren a menudo unamayor estabilidad y actividad al centro metálico en cuestión. Los dos mayores éxitos de losNHCs en catálisis homogénea se encuentran, sin duda, en la metátesis de olefinas catalizadapor rutenio y en las reacciones de acoplamiento cruzado promovidas por paladio.En este trabajo, hemos estudiado el efecto de los carbenos N-heterocíclicos comoligandos en complejos bien definidos de paladio(II), galio(III) y oro(I), que hemos empleadoen catálisis homogénea.En particular, hemos sintetizado, de forma directa, dos familias de compuestos de paladio de fórmula general [(NHC)Pd(L)Cl] donde L, grupo R-alilo o R-acac, actúa como protector para las especies catalíticamente activas [(NHC)Pd0]. De hecho, tras la activaciónen las condiciones de reacción, estos nuevos complejos de paladio se mostraron extremadamente activos en las reacciones de Suzuki-Miyaura, de Buchwald-Hartwig y en la -arilación de cetonas. Más concretamente, la 'familia R-arilo', más activa, permitió llevar a cabo estas reacciones con tan sólo 10 ppm de paladio.Una serie de complejos [(NHC)GaCl3] fue preparada en una simple etapa. Los compuestos resultantes NHC-GaIII, sin precedentes en la literatura, se mostraron extremadamente estables pero sólo moderadamente activos en reacciones de isomerización.Con el fin seguir ampliando la gran aplicabilidad de los NHCs en catálisis conmetales, estudiamos varias nueva transformaciones utilizando los complejos [(NHC)AuCl].De hecho, estos pre-catalizadores, activados in situ con una sal de plata, demostraron ser excelente activadores de alquinos, alenos y alquenos. Esto llevó al desarrollo de protocolos eficientes, y sintéticamente útiles, tales como la cicloisomerización de eninos, la ciclación deindenos, la formación de enonas conjugadas, y reordenamientos arílicos.
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Transition metal catalysed functionalisation of c=c through boron chemistry: a tandem approachLillo García, Vanesa 23 June 2009 (has links)
Los compuestos organoborados son considerados de gran interés en síntesis orgánica debido a que el enlace C-B puede ser transformado en una amplia variedad de grupos funcionales. La adicción catalítica de H-B o B-B a enlaces C-C insaturados se considera uno de los procesos catalíticos con mayor control selectivo en la formación de dichos intermedios organoborados. En el capítulo primero de la presente tesis se muestra la evolución a través de la bibliografía de las tres principales reacciones de adición catalítica de boro a alquenos, como son hidroboración, diboración y -boración. El segundo capítulo describe por primera vez la hidroboración catalítica asimétrica tanto en version homogénea como heterogeneizada de sistemas alilícos heterofuncionalizados. También describe el primer ejemplo de diboración de fenil alil sulfonas con sistemas catalíticos de Pt modificados con ligandos N-heterocíclicos. El tercer capítulo muestra la diboración catalítica de alquenos con sistemas catalíticos formados por Cu, Pd e Ir modificados con ligandos NHC. La presencia de una base y la adicción de un exceso de diborano son esenciales para obtener un alto grado de actividad y selectividad. El cuarto capítulo muestra una efectiva síntesis de boro enolatos quirales usando metales de bajo coste como son Cu y Ni modificados con ligandos NHC quirales y ligandos difosfina quirales respectivamente. El quinto capítulo describe las reacciones tándem "in situ" tales como adición de boro-acoplamiento cruzado catalizadas por complejos de Pt modificado con ligandos carbenos y Pd modificados con ligandos difosfina. / Organoboron compounds are some of the most useful reagents in organic synthesis. The carbon-boron bond, once formed, can be cleaved in a variety of ways, with or without homologation, leading to a wide range of useful functional groups. The catalytic addition of H-B or B-B across to unsaturated C-C bond is one of the catalytic processes with higher selective control in the C-B bond formation. In the first Chapter of this thesis shows the evolution through the literature of the three main catalytic reactions of boron addition to alkenes, such as hydroboration, diboration and -boration.Chapter 2 describes the first attempt at the catalytic asymmetric hydroboration in both homogeneous and heterogenised version of functionalised allylic system. In addition, the first example of the diboration reaction of these mentioned substrates with complexes based on Pt modified with NHC ligands is described.Chapter 3 discusses catalytic diboration of alkenes based on Cu, Pd and Ir- catalytic system modified with NHC ligands. The presence of a base and the use of an excess of diboron reagent are essential to obtain high degree of activity and selectivity.Chapter 4 shows the successful synthesis of chiral boron enolates by using inexpensive metals such as copper and nickel modified with chiral NHC ligands and modulated chiral commercially available diphosphines respectively. In Chapter 5 describes complexes containing transition metals such as platinum and palladium modified with NHC ligands and P,P respectively capable to perform the in situ tandem catalytic boron-addition-Suzuki-Miyaura cross-coupling.
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Mechanistic insight into homogeneous catalytic reactions by ESI-MSAhmadi, Zohrab 28 August 2013 (has links)
For the study of homogeneous catalytic reaction mechanisms, the ideal technique would be capable of identifying and measuring in real time the abundances of all components of the reaction mixture, including reactants, products, byproducts, intermediates, and catalyst resting states. This thesis details the development of methodologies designed to transform electrospray ionization mass spectrometry into just such a tool.
Species of interests must be charged otherwise invisible in ESI-MS. Therefore, charge-tagged aryl iodide ([4-I-C6H4CH2PPh3]+[Br]-) and a terminal alkyne ([para-(HCC)C6H4CH2PPh3]+[Br]-) were synthesized as the ESI-active substrates for the homogeneous catalysis study. A method named PSI (pressurized sample infusion) was developed to introduce the air and moisture sensitive reaction mixtures to the ESI-MS. The analytical aspects of the method were investigated and optimized. Applicability of the technique was demonstrated through several organic and organometallic mechanism investigations.
The above developments were employed to the detailed study of the copper-free Sonogashira (Heck alkynylation) reaction and the hydrodehalogenation of the charged-tag aryl iodide. Simultaneous monitoring of the charged substrate, products and intermediates in the copper-free Sonogashira reaction by PSI-ESI-MS provided rich information about the kinetic and mechanism of this reaction. Kinetic isotope effect study shows a remarkable inverse kinetic isotope effect which is completely unexpected. Numerical models were constructed to simulate the mechanistic observation and to extract the rate constant of each step in the proposed mechanism cycle.
The same methodology (PSI technique) was used to the study of the hydrodehalogenation reaction. Key intermediates were detected under the typical reaction conditions. Kinetic isotope effect study was performed in CH3OD and CD3OD. A primary KIE was observed in both deuterated solvents. A revised mechanism cycle was suggested for this reaction based on KIE results, numerical modelling and other experiments. In the proposed cycle deprotonation of methanol occurs on the palladium metal centre instead of the conventional in solution deprotonation (off metal deprotonation).
The mechanism of the ligand substitution of charged-tag of a palladium aryl iodide [Pd(TMEDA)(Ar)(I)]+ (Ar = [C6H4CH2PPh3]+[PF6]-) complex against PPh3 was studied in methanol by PSI-ESI-MS. Results revealed that the pathway proceeds quite differently to what had been assumed by others; there was a very fast displacement of [I]– by PPh3 to form [Pd(TMEDA)(Ar)(PPh3)]2+ , followed by a much slower displacement of TMEDA and recoordination of [I]– to form the product [Pd(PPh3)2ArI]+.
We successfully integrated UV/Vis spectroscopy, as a complementary method with ESI-MS to shed light into the systems where ESI-MS only is unable to provide a full assignment to homogenous catalysis. The combination of the two fast and sensitive techniques provides a unique opportunity to study the composition of the organometallic reaction mixtures over time. / Graduate / 0486 / zohrabahmadi@gmail.com
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Indium complexes and their role in the ring-opening polymerization of lactideDouglas, Amy Frances 05 1900 (has links)
The synthesis and characterization of a series of chiral indium complexes bearing a tridentate NNO ligand are reported. The ligand 2-[[[(dimethylamino)cyclohexyl]amino]methyl]- 4,6-bis(tert-butyl) phenol (H₂NNO) was synthesized via a previously published procedure and bound to indium by both a protonolysis and salt metathesis route. A dimethylated indium complex (NNO)InMe₂ (1) was isolated by reaction of InMe₃ with H₂NNO. A one-pot saltmetathesis route was used to produce a unique mixed-bridge dinuclear indium complex [(NNO)InCl] ₂(μ-OEt)(μ-Cl) (3) from a mixture of indium trichloride, potassium ethoxide and the monopotassiated salt of the ligand, KH(NNO). Direct reaction of KH(NNO) and indium trichloride resulted in the formation of (NNO)InCl₂ (4) which was carried forward to 3 by reaction with sodium ethoxide.
The complex 3 is active for the ROP of β-butyrolactone ε-caprolactone and lactide and is the first reported indium-based catalyst for lactide or β-butyrolactone ROP. Kinetic studies of 3 for ROP of LA revealed that catalyst was well-behaved, and that the rate was first order with
regard to lactide and catalyst. The enthalpy and entropy of activation for the ROP were experimentally determined. Polymer produced by ROP by 3 has narrow molecular weight distribution and a good correlation is seen between the observed moleular weight and monomer loading. A mechanism was proposed for 3 acting as a catalyst for the ROP of lactide; however further experiments are required to confirm this mechanism. Polymer samples isolated from the
ROP of rac-lactide by rac-3 show isotactic enrichment. It is postulated that the chiral catalyst 3 is exerting stereocontrol via an enantiomorphic site control mechanism.
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Estudo de Ferroporfirinas Nitro e Carboxi Substituídas: Síntese, Caracterização e Atividade Catalítica na Oxidação de Hidrocarbonetos. / STUDY OF NITRO AND CARBOXY SUBSTITUTED IRONPORPHYRINS: SYNTHESIS, CHARACTERIZATION AND CATALYTIC ACTIVITY IN HYDROCARBON OXIDATION.Marco Antônio Schiavon 26 June 1998 (has links)
Neste trabalho foi sintetizada e caracterizada uma série de porfirinas e FeP correspondentes contendo substituintes NO2 nas posições orto- ou grupos COOH nas posições para- dos anéis meso-fenis, e a atividade catalítica destes compostos na oxidação de hidrocarbonetos foi investigada, tanto em sistemas homogêneos quanto em sistemas suportados. As porfirinas H2(TNMCPP), H2(DNDCPP) e H2(MNTCPP) foram sintetizadas pela reação de pirrol com a mistura de 2-nitrobenzaldeído e 4-carboxibenzaldeído, em meio de ácido propiônico e nitrobenzeno, sendo em seguida isoladas e purificadas através de cromatografia preparativa em sílica gel tendo como eluente a mistura DCM : ACT : HAc (8 : 2 : 0,1). A inserção de ferro nas porfirinas bases livre foi feita pela reação com FeBr2.2H2O em meio de DMF. A caracterização das porfirinas bases livre e das correspondentes FeP envolveu diferentes técnicas como: TLC, eletroforese em gel de agarose, análise elementar, UV/Vis, IV, RMN 1H, FAB MS, susceptibilidade magnética e EPR. Utilizou-se as porfirinas H2(TNPP) e H2(TCPP) e FeP correspondentes como padrões de comparação, tornando a série completa. A purificação e caracterização destas porfirinas mostraram-se bastante complexas devido à presença de grupos ionizáveis resultando em grandes diferenças de solubilidade na série e efeitos de agregação. Estes efeitos foram mais pronunciados para as porfirinas contendo maior número de grupos COOH. O estudo da atividade catalítica da série de FeP foi desenvolvido inicialmente em meio homogêneo, utilizando diferentes substratos como: (Z)-cicloocteno, cicloexeno, cicloexano e adamantano. As FeP sintetizadas mostraram-se catalisadores eficientes e seletivos para a hidroxilação de alcanos e epoxidação de alcenos. A estabilidade da Fe(TNMCPP)Cl foi investigada em reações com múltiplas adições de oxidante. Observou-se uma alta estabilidade para este catalisador em solução, com bons rendimentos em epóxido para até sete ciclos consecutivos, e um alto número de turnover (1142). A Fe(TNMCPP)Cl foi ancorada na APS através de ligação covalente (peptídica) entre o grupo COOH da FeP e o grupo NH2 da sílica funcionalizada. Esta FeP foi selecionada por possuir apenas um grupo capaz de reagir com a sílica e, ao mesmo tempo, a proteção estérica de três grupos NO2 substituintes nas posições orto-, constituindo um sistema interessante do ponto de vista catalítico. Este sistema mostrou-se bastante eficiente na oxidação do (Z)-cicloocteno. O número máximo de turnover catalítico para esta FeP suportada foi de 595 após três adições sucessivas de oxidante. A Fe(TNMCPP)Cl foi ancorada na APS também por atração eletrostática, porém este sistema mostrou-se menos eficiente como catalisador na oxidação do (Z)-cicloocteno. / In this work, a series of porphyrins and corresponding FeP containing NO2-substituents in the ortho- or COOH-groups in the para- meso-phenyl rings were synthesized and the catalytic activities of such compounds were investigated in both homogeneous and heterogeneous systems. H2(TNMCPP), H2(DNDCPP) and H2(MNTCPP) porphyrins were synthesized through the mixed co-condensation of pyrrole and different benzaldehydes (2-nitrobenzaldehyde and 4-carboxybenzaldehyde) in propionic acid and nitrobenzene media. The porphyrins were then isolated and purified through silica gel chromatography, having a solvent mixture DCM : ACT : HAc (8 : 2 : 0,1). The characterization of the free-base porphyrins and the corresponding FeP was carried out through TLC, electrophoresis on agarose gel, elemental analysis, UV/Vis, infra red, RMN 1H, FAB MS, magnetic susceptibility and EPR. H2(TNPP) and H2(TCPP) and corresponding FeP were used for comparison, thus completing the porphyrin series. The purification and characterization of these porphyrins proved to be very complex due the presence of ionic groups. This resulted in different solubilities throughout the series, as well as aggregation effects. Such effects were more pronounced with porphyrins containing a greater number of COOH groups. The study of the catalytic activities of the FeP was initially carried out in homogeneous system, by using various substrates: (Z)-cyclooctene, cyclohexene, cyclohexane and adamantane. The synthesized FeP were efficient and selective catalysts for alkane hydroxilation and alkene epoxidation. The stability of Fe(TNMCPP)Cl was investigated by multiple oxidant addition. A high stability was observed for this catalyst in homogeneous system, since it led to good epoxide yields up to the seventh cycle and an excellent turnover number of 1142. Fe(TNMCPP)Cl was supported on APS through covalent binding of the peptidic type between COOH groups in the FeP and NH2 group on the funcionalized silica. This FeP was chosen for the study since it has only one group that is capable of reacting with the silica, at the same time that it presents sterical hindrance confered by the three NO2 groups in the ortho-position. This is a very interesting system from the catalytical point of view. Such system proved to be very efficient in the oxidation of (Z)-cyclooctene. The maximum catalytic turnover attained with this supported FeP was of 595, after three sucessive additions of oxidant. Fe(TNMCPP)Cl was also supported on APS though electrostatic binding, but this system was a less efficient catalyst for (Z)-cyclooctene oxidation.
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Efeitos eletrônicos e estéricos de ligantes ancilares: relação estrutura-reatividade em complexos do tipo [RuCl2(PPh3)x(amina)y] para polimerização de olefinas via metátese / Electronic and steric effects of ancillary ligands: structure-reactivity relationship in [RuCl2(PPh3)x(amine)y] complex types for ring opening metathesis polymerization of olefinsJosé Luiz Silva Sá 31 August 2011 (has links)
Os complexos do tipo [RuCl2(PPh3)2amina], amina = pip (1) ou pep (2), foram estudados como iniciadores catalíticos para reações de ROMP de NBE, NBD e oxaNBE-OMe e na ROMCP de NBE com NBD e oxaNBE-OMe com NBE. O complexo [RuCl2(PPh3)(pep)(isn)] (3) foi estudado na ROMP de NBE e NBD. Os complexos 2 e 3 são inéditos e suas caracterizações são discutidas e correlacionadas com o complexo com 1. As reações de catálises foram realizadas com variações de tempo, volume de solvente e temperatura, em atmosfera de Ar ou ar e na presença de EDA. <br />O rendimento foi quantitativo na ROMP de NBE com o complexo 1 em 2 mL de CHCl3, por 5 min a 25 °C em Ar, com IPD de 1,9 e Mw na ordem de 106 g mol-1. Com o complexo 2, os rendimentos foram quantitativos (IPD ~ 3 e Mw na ordem de 104 g mol-1) e independentes do tempo (5 -120 min) e volume de solvente (2 - 8 mL). Com 3, os rendimentos diminuíram com o aumento do volume de solvente, mas com IPD ~ 2 e Mw na ordem de 104 g mol-1. Em todos os casos os rendimentos diminuíram em atmosfera de ar e com polímeros polimodais. <br />Rendimentos quantitativos de poliNBD foram obtidos com 1 a 40 °C e com 2 a 25 °C na faixa de volume de solvente estudada, por 60 e 120 min, em Ar. Os rendimentos com 3 foram inferiores a 35%. Foram também obtidos rendimentos quantitativos em atmosfera de ar em certas combinações de tempo e volume de solvente, indicando que os complexos são robustos para atividades em soluções contendo O2. Todos os polímeros de NBD foram insolúveis. <br />Obteve-se até 70% de poli(NBE-co-NBD) isolado a partir de reações com 1 e reações quantitativas com 2, dependendo da fração molar NBE:NBD usada, indicando as razões de reatividades do complexos. <br />A ROMP de oxaNBE-OMe com 1 ou com 2 formou 15 a 30% de rendimento, a 40 °C por 24 h em Ar. Na ROMCP desse monômero com NBE obteve-se de 5 a 30% de rendimento, dependendo da fração molar. Os rendimentos são maiores nas frações molares com maior quantidade de NBE. Poli(oxaNBE-OMe) foi solúvel, enquanto que seus copolímeros foram pouco solúveis. <br />São realizadas discussões quantos às características eletrônicas e de impedimentos estéricos nos complexos estudados nas polimerizações via metátese, selecionando-se os ligantes ancilares frente às condições de reações para obtenções de bons rendimentos e características dos polímeros isolados. / The complexes of type [RuCl2(PPh3)2amina], amine = pip (1) or pep (2), were studied as catalytic initiators for ROMP of NBE, NBD and oxaNBE-OMe and for ROMCP of NBE with NBD and oxaNBE-OMe with NBE. The complex [RuCl2(PPh3)(pep)(isn)] (3) was studied for ROMP of NBE and NBD. The complexes 2 and 3 are novels and their characterizations are discussed and correlated with the complex 1. The catalysis reactions were performed with variations of time, volume of solvent and temperature, either in Ar or air atmosphere, in the presence of EDA. <br />The yield was quantitative for ROMP of NBE with complex 1 in 2 mL of CHCl3 for 5 min at 25 °C in Ar, with PDI of 1.9 and Mw in the order of 106 g mol-1. With the complex 2, the yields were quantitatives (PDI ~ 3 and Mw in the order of 104 g mol-1) and independent of time (5 - 120 min) and volume of solvent (2 - 8 mL). With 3, the yields decreased when increasing the volume of solvent, but with PDI ~ 2 and Mw in the order of 104 g mol-1. In all the cases, the yields decreased in air atmosphere with polymodal polymers. <br />Quantitative yields of poliNBD were obtained with 1 at 40 °C and with 2 at 25 °C in the range of the studied volume of solvent, for 60 and 120 min, in Ar. The yields with 3 were less than 35%. Quantitative yields were also obtained in air atmosphere in some combinations of time and volume of solvent, indicating that the complexes are robust for activities in solutions containing O2. All polyNBD were insoluble. <br />It was obtained up to 70% of poly(NBE-co-NBD) isolated from reactions with 1 and quantitative reactions were obtained with 2, depending on the NBE:NBD molar fraction used, indicating the reactivity ratios for the complexes. <br />The ROMP of oxaNBE-OMe with 1 or with 2 yielded 15 to 30% at 40 °C for 24h in Ar. In the ROMCP of this monomer with NBE, it was obtained from 5 to 30% yield, depending on the molar fraction. Yields are higher in molar fractions with higher amount of NBE. Poly(oxaNBE-OMe) was soluble, while its copolymers were poorly soluble. <br />Discussions are held on the electronic characteristics and steric hindrances in the studied complexes for the metathesis polymerization, selecting the ancillary ligands as a function of the reaction conditions to obtain good yields and to improve the characteristics of the isolated polymers.
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