Supercritical Processing of Electrically Conducting Polymers

Kurosawa, Shutaro

14 May 2004

Thick composites (~ 3 mm in thickness) of polypyrrole with electrically insulating porous (polystyrene) and nonporous (polymethyl methacrylate) substrates were prepared using a two-step batch method. In the two-step method, impregnation of volatile (iodine) or nonvolatile (ferric chloride) oxidant in the substrate is followed by in-situ polymerization of pyrrole. Conductivities as high as 10-1 S/cm were obtained in this work in the case of composites of polypyrrole and porous, crosslinked polystyre. Use of the nonvolatile oxidant (ferric chloride) resulted in higher conducting polymer yield, as well as composites having a higher conductivity, thermal stability, and mechanical strength. However, the volatile oxidant (iodine) could be transported to the substrate using supercritical carbon dioxide as the solvent. As a result, partitioning of the oxidant between the solvent phase and the polymer substrate, and hence the distribution of the oxidant in the substrate, could be controlled by manipulation of the pressure. The two-step batch method in which supercritical carbon dioxide is used to facilitate transport and as a solvent for the oxidant was found to be an effective method for the production of thick composites with uniform conductivity, thermal stability, and mechanical strength. Such composites are desired in important practical applications such as rechargeable battery electrodes and electromagnetic interference shielding materials.

Oxidative coupling polymerization

Diffusivity

Reversible and irreversible adsorption of naphthalene and α-naphthol to soil

Burgos, William David

06 June 2008

Experiments were performed with naphthalene and a-naphthol to compare the processes involved in the sorption of a polycyclic aromatic hydrocarbon (PAH) and its metabolite, respectively, and to assess the bioavailability of these two compounds adsorbed to two sandy soils with different organic carbon contents. Adsorption conditions were varied to estimate the extent that biologically-mediated and chemically-induced oxidative coupling, and rate-limited diffusive processes contributed to the apparent irreversible adsorption of these compounds. The purposes of this research were to: (1) investigate the processes which cause the irreversible adsorption of organic contaminants to soil~ (2) gauge the impact that these different adsorption processes have on the bioavailability of sorbed contaminants; and, (3) evaluate the environmental significance of these processes in soils and the subsurface. This dissertation has been prepared as three separate articles for publication in peer reviewed journals. The first article serves as a literature review in evaluating the significance of oxidative coupling reactions in soil and subsurface environments. This review concludes that oxidative coupling of organic contaminants may be important in soils and could be stimulated as a viable remediation strategy. For subsurface systems oxidative coupling appears much more limited, however, engineered systems could be developed to enhance this process. The second article presents experimental results used to quantify the individual processes involved in the irreversible adsorption of naphthalene and a-naphthol. This article concludes that both biological and chemical catalysts are important in promoting irreversible adsorption reactions, and that once the partial oxidation of a PAH occurs, oxidative coupling can become a significant process affecting contaminant fate. The third and final article examines the effect of different adsorption processes on the subsequent bioavailability of sorbed naphthalene and anaphthol, and concludes that the biodegradation of naphthalene and α-naphthol adsorbed to both the soils tested was controlled by the rate of desorption and the reversibility of the adsorption process. / Ph. D.

bioavailability

oxidative coupling

LD5655.V856 1995.B874

Kinetic Studies of Oxidative Coupling of Methane Reaction on Model Catalysts

Khan, Abdulaziz M.

26 April 2016

With the increasing production of natural gas as a result of the advancement in the technology, methane conversion to more valuable products has become a must. One of the most attractive processes which allow the utilization of the world’s most abundant hydrocarbon is the oxidative coupling. The main advantage of this process is the ability of converting methane into higher paraffins and olefins (primarily C2) in a direct way using a single reactor. Nevertheless, low C2+ yields have prevented the process to be commercialized despite the fact that great number of attempts to prepare catalysts were conducted so that it can be economically viable. Due to these limitations, understanding the mechanism and kinetics of the reaction can be utilized in improving the catalysts’ performance. The reaction involves the formation of methyl radicals that undergo gas-phase radical reactions. CH4 activation is believed to be done the surface oxygen species. However, recent studies showed that, in addition to the surface oxygen mediated pathway, an OH radical mediated pathway have a large contribution on the CH4 activation. The experiments of Li/MgO, Sr/La2O3 and NaWO4/SiO2 catalysts revealed variation of behavior in activity and selectivity. In addition, water effect analysis showed that Li/MgO deactivate at the presence of water due to sintering phenomena and the loss of active sites. On the other hand, negative effect on the C2 yield and CH4 conversion rate was observed with Sr/La2O3 with increasing the water partial pressure. Na2WO4/SiO2 showed a positive behavior with water in terms of CH4 conversion and C2 yield. In addition, the increment in CH4 conversion rate was found to be proportional with PO2 ¼ PH2O ½ which is consistent with the formation of OH radicals and the OH-mediated pathway. Experiments of using ring-dye laser, which is used to detect OH in combustion experiments, were tried in order to detect OH radicals in the gas-phase of the catalyst. Nevertheless, noisy signals were obtained that prevented the ability of detecting OH at the expected few ppms concentrations. Further optimization of the experimental setup is required.

methane Oxidative Coupling

Catalysis

Kinetics

OH Mediated

Ring Dye Laser

Comprehensive Kinetic Study of Oxidative Coupling of Methane (OCM) over La2O3-based catalysts

Wang, Haoyi

12 1900

Oxidative coupling of methane (OCM) represents a potentially viable method to convert methane directly into more desirable products such as ethane, and ethylene. In this dissertation, a comprehensive kinetic study of oxidative coupling of methane was performed over La2O3-based catalysts. An accurate and reliable gas-phase model is critical for the entire mechanism. The gas-phase kinetics was first studied using a jet-stirred reactor without catalyst. Both experiments and simulations were conducted under various operating conditions using different gas-phase models. Quantities of interest and rate of production analyses on hydrocarbon products were also performed to evaluate the models. NUIGMech1.1 was selected as the most comprehensive model to describe the OCM gas-phase kinetics and used for the next study. Next, microkinetic analysis on La2O3-based catalysts with different dopants was performed. The Ce addition has the greatest boost over the performance. The kinetics at low conversion regimes were analyzed and correlated to the catalysts’ properties. The activation energy for methane hydrogen abstraction was estimated, with the formation rate of primary products, which suggested that the initiation reaction steps were similar for La2O3-based catalyst. A homogeneous-heterogeneous kinetic model for La2O3/CeO2 catalyst was then constructed. By applying in situ XRD, the doping of CeO2 not only enhanced catalytic performance but also improved catalyst stability from CO2 and H2O. A wide range of operating conditions was investigated experimentally and numerically, where a packed bed reactor model was constructed based on the dimensions of experimental setup and catalyst characterization. The rate of production (ROP) was also performed to identify the important reactions and prove the necessity of surface reactions for the OCM process. Laser-induced fluorescence was implemented to directly observe the presence of formaldehyde. The last section includes the implementation of in situ laser diagnosis techniques at the near-surface region to solve the existing challenges. Raman scattering was implemented to quantitate the concentration profiles of major stable species near the surface and measure the in situ local temperatures at different heights above the catalyst surface, to study the kinetics transiting from the surface edge to the near-surface gas phase and provide a new perspective in OCM kinetic studies.

Kinetic modeling

oxidative coupling of methane

Factors affecting binding of chlorophenols to soil

Bhandari, Alok

19 September 2008

Synthetic substituted phenols can become incorporated into soil organic matter by processes similar to natural humification. Biological, (enzyme-catalyzed), and abiotic, (mineral surface catalyzed), reactions have been implicated in these processes which result in the nonextractable binding of phenolic contaminants to soil organic matter. Experiments conducted with phenol, 4-monochlorophenol (MCP), 2,4,6-trichlorophenol (TCP), and pentachlorophenol (PCP) indicated a statistically significant difference in the degree of nonextractable binding in oxic and anoxic environments. Soils were extracted with water and methylene chloride. The extracted soils were combusted at 950°C and the 14C02 evolved was quantified as a measure of the bound contaminant. The amount of 14C02 captured during combustion of the soils indicated that approximately two times greater contaminant binding occurred in the oxic atmosphere as compared to the anoxic atmosphere. Autoclaving the soil resulted in a reduction in contaminant binding. Addition of H₂O₂ increased MCP binding by 4.5 times. The nonextractable contaminant appeared to consist of (i) a biologically coupled; (ii) an abiotically coupled; and (iii) a desorbable, but diffusion-limited component. The initial aqueous concentration of the contaminant appeared to have the greatest effect on the degree of nonextractable binding. An empirical model was developed for predicting the extent of chlorophenol binding to soil as a function of the initial aqueous concentration of the contaminant. Nearly 50% of the nonextractable 4-MCP was bioavailable to inoculated microorganisms. / Ph. D.

oxidative coupling

bioavailability

soils

LD5655.V856 1995.B48

Studies on Oxidative Couplings in H-Phosphonate Chemistry

Nilsson, Johan

January 2004

<p>In this thesis oxidative coupling of H-phosphonate and H phosphonothioate diesters with different alcohols and amines are presented. Since the reactions with alcohols previously have been particularly unfavourable due to competing side reactions, a modified protocol leading to high coupling yields of structurally diverse hydroxylic components was developed. The phosphorylation reaction was studied using ³¹P NMR spectroscopy and for the first time the previously only postulated reactive intermediate involved in these reactions was observed. </p><p>The use of iodine in combination with a bulky chlorosilane in pyridine was found to have a profound effect on both the suppression of side reactions and the rate of the oxidative couplings, and led to a clean formation of phosphorylated products in high yields. This synthetic protocol was then extended to include coupling reactions with bis-functional reagents containing hexamethylene linkers to provide handles for derivatisations of oligonucleotides.</p><p>A synthetic protocol consisting of the stereospecific oxidative coupling of amines with H-phosphonate diesters to produce phosphoroamidates was designed in such a way that it permitted control of the stereochemical outcome of the reactions.</p><p>Based on a silylation-mediated reaction utilising phenyl H phosphonothioate monoester as a thiophosphonyl transferring agent, a method was developed and used for the preparation of H-phosphonothioate building blocks for the synthesis of DNA analogues.</p>

oxidative coupling

H-phosphonate

H-phosphonothioate

organisk kemi

Organic chemistry

Organisk kemi

Transition metal catalysis in the presence of fluorinating reagents

Hopkinson, Matthew Neil

January 2011

In this thesis, the effect of fluorinating reagents on a selection of transition metal-mediated organic transformations was investigated. The first four chapters are focused on gold-catalysed nucleophilic addition processes performed in the presence of “F⁺” sources. Chapter 1 provides a general introduction to homogeneous gold catalysis and summarises the aims and objectives of the project. The effect of the electrophilic fluorinating reagent Selectfluor (82) on the gold-catalysed rearrangement of propargyl acetates 85 is discussed in Chapter 2. α-Fluoroenones 92 resulting from fluorodeacetylation of an allenyl acetate intermediate were delivered as the major products of these reactions (Scheme i). [Scheme i Gold-Catalysed Rearrangement-Fluorodeacetylation of Propargyl Acetates 85.] By contrast, performing the gold(I)-catalysed cyclisation of allenoates 102 in the presence of Selectfluor (82) led to products of oxidative coupling. The “F⁺” source in these processes most likely acts as an external oxidant in an Au<sup>I</sup</Au^III redox cycle. In Chapter 3, the cascade cyclisation-intramolecular arylation of benzyl-substituted substrates is discussed whilst the extension of the methodology towards intermolecular homocoupling and intermolecular alkynylation is presented in Chapter 4 (Scheme ii). [Scheme ii Gold-Catalysed Cyclisation-Oxidative Coupling of tert-Butyl Allenoates 102.] In Chapter 5, the feasibility of palladium-catalysed allylic [¹⁸F]radiofluorination was investigated using high-specific-activity [¹⁸F]fluoride. This study led to the development of the first transition metal-mediated C-¹⁸F bond-forming process of relevance for the preparation of radiotracers for PET imaging (Scheme iii). [Scheme iii Palladium-Catalysed Allylic [18F]Radiofluorination of Allylic Methyl Carbonate 227b.] Chapter 6 gives full experimental procedures and characterisation data for all compounds.

660.2995

Studies on Oxidative Couplings in H-Phosphonate Chemistry

Nilsson, Johan

January 2004

In this thesis oxidative coupling of H-phosphonate and H phosphonothioate diesters with different alcohols and amines are presented. Since the reactions with alcohols previously have been particularly unfavourable due to competing side reactions, a modified protocol leading to high coupling yields of structurally diverse hydroxylic components was developed. The phosphorylation reaction was studied using 31P NMR spectroscopy and for the first time the previously only postulated reactive intermediate involved in these reactions was observed. The use of iodine in combination with a bulky chlorosilane in pyridine was found to have a profound effect on both the suppression of side reactions and the rate of the oxidative couplings, and led to a clean formation of phosphorylated products in high yields. This synthetic protocol was then extended to include coupling reactions with bis-functional reagents containing hexamethylene linkers to provide handles for derivatisations of oligonucleotides. A synthetic protocol consisting of the stereospecific oxidative coupling of amines with H-phosphonate diesters to produce phosphoroamidates was designed in such a way that it permitted control of the stereochemical outcome of the reactions. Based on a silylation-mediated reaction utilising phenyl H phosphonothioate monoester as a thiophosphonyl transferring agent, a method was developed and used for the preparation of H-phosphonothioate building blocks for the synthesis of DNA analogues.

oxidative coupling

H-phosphonate

H-phosphonothioate

organisk kemi

Organic chemistry

Organisk kemi

Acoplamento não oxidativo de metano sobre metais suportados em solidos microporosos

Paloschi, Rozileia Simoni

25 February 2002

Orientador: Gustavo Paim Valença / Dissertação (mestrado) - Universidade Estadual de Campinas, Faculdade de Engenharia Quimica / Made available in DSpace on 2018-07-31T19:58:48Z (GMT). No. of bitstreams: 1 Paloschi_RozileiaSimoni_M.pdf: 2623823 bytes, checksum: 569787d9b56d1368559be20011050e5e (MD5) Previous issue date: 2002 / Resumo: A conversão catalítica de metano para combustível liquido ou outros produtos químicos é de grande interesse e muitas tentativas de utilização têm sido feitas para ativar metano em condições não oxidativas e convertê-lo em hidrocarbonetos grandes e compostos aromáticos. Neste trabalho, duas zeólitas H-ZMS-5 com razões Si/AI diferentes e uma zeólita H-Y foram impregnadas com 3% p/p de Mo e testadas na reação de acoplamento não oxidativo de metano. Análises de DRX e FTIR demonstraram que o Mo está bem disperso na superfície nos canais das zeólitas. A área superficial BET e o volume de poros apresentaram uma pequena redução após a impregnação. As reações foram feitas a 973 K. O catalisador Mo/H-Y só apresentou CO e H2 como produtos. O catalisador MO/H-ZSM-5 com a zeólita de menor razão Si/AI apresentou a maior conversão de metano e seletividade à benzeno quando a reação foi realizada em condição de baixa velocidade espacial de metano. A adição de 40% de H2 não favorece a formação de hidrocarbonetos C2 e aromáticos, enquanto a adição de apenas 10% resultou em um aumento na estabilidade da conversão de metano, especialmente para a zeólita com menor razão Si/AI. A adição de 20% de H2 resultou em menor conversão de metano e seletividade a benzeno quando comparada às reações sem adição de co-reagente e com 10% de co-reagente. Foram feitas também reações a 923 K e 1023 K para a determinação da energia de ativação. O catalisador 3Mo/H-ZSM-5 com menor razão Si/AI desativou completamente após 13 h de reação, enquanto o catalisador 3Mo/H-ZSM-5 com maior razão Si/AI desativou completamente após 9 h de reação. Este último foi regenerado por passagem de oxigênio à temperatura entre 723 e 823 K e testado novamente na reação de acoplamento não oxidativo de metano, apresentando valores de conversão de metano e seletividade à benzeno equivalentes aos observados na reação com o catalisador não regenerado / Abstract: The catalytic conversion of methane to liquid fuels or commodity chemicals is an attactive process that has received a great dela of attention recently. The conversion of methane under nonoxidative conditions results in longer chain hydrocarbons and aromatics compounds. In this work, two H-ZSM-5 zeolites with different Si/AI ratios and one H-Y zeolite were loaded with 3wt% Mo. They were used as catalysts in the reaction of nonoxidative coupling of methane. XRD and FTIR analysis showed that the molybdenum species are uniformly distributed on the surface in the channels of the zeolites. The BET surface area and the pore volume decreased slightly after impregnation with Mo. The reactions were carried out at 973 K. The only products for the Mo/H-Y smaples were CO and H2. The methane conversion and selectivity to benzene were higher for the Mo/H-ZSM-5 catalyst with lower Si/AI ratio and for lower methane space velocity. The nonoxidative coipling of methane reaction did not occur when 40% hydrogen were added to the methane feed stream. However, the methane conversion became stable and increase as 10% hydrogen were added to methane. This was true for the zeolite with lower Si/AI ratio. When 20% hydrogen were added to the methane feed stream, the methane conversion and selectivity to benzene were lower than when 10% hydrogen or no hydrogen were added to the feedstream. Reactions were carried out at 923 and 1023 K in order to determine the activation energy. The activation energy values were similar fo the reaction on the zeolites with different Si/AI ratios. The catalyst with lower Si/AI ratio deactivated after 13 h and the catalyst with higher Si/AI ratio deactivated after 9 h on stream. The catalyst with higher So/SI ratio was regenerated by flowing oxygen at temperatures between 723 and 823 K. After regeneration the catalyst had the same catalytic performance as the ¿fresh¿ catalyst / Mestrado / Desenvolvimento de Processos Químicos / Mestre em Engenharia Química

Metano

Zeolitos

Gás natural

Molibdênio

Methane

Non-oxidative coupling

Zeolites

Co-reactant

Couplages oxydants entre indoles et phénols pour la synthèse de benzofuroindolines naturelles / Oxidative Coupling between Indoles and Phenols towards the Synthesis of Natural Benzofuroindolines

Denizot, Natacha

26 November 2015

Le noyau benzofuro[2,3-b]indoline est une structure complexe que l’on retrouve dans différentes substances naturelles telles que l’azonazine, la voacalgine A, la bipleiophylline ou encore le diazonamide A. Ces produits naturels possèdent une activité biologique intéressante et plus particulièrement le diazonamide A avec un IC50 inférieur à 15ng/mL sur plusieurs lignées cellulaires cancéreuses. De plus, certaines de ces substances n’ont jamais été synthétisées à ce jour. Lors de la biogénèse de ces composés, il est supposé que le motif benzofuroindoline est créé par un couplage oxydant entre un indole et un phénol. Nous avons ainsi entrepris de développer différentes méthodologies de synthèse biomimétiques du motif benzofuroindoline. Inspiré par les biosynthèses de l’azonazine et du diazonamide A, nous avons développé une arylation diastéréodivergente du tryptophane par la tyrosine. Les diverses méthodologies de synthèse de benzofuroindolines existantes effectuant ce couplage ne permettent pas un contrôle stéréosélectif. Nous avons remédiés à ce problème en réalisant une réaction de Friedel-Crafts entre une tyrosine protégée et des exo- et endo-bromopyrroloindolines issues stéréosélectivement du tryptophane. Cette réaction procède avec rétention de configuration et nous permettent une synthèse diastéréodivergente de précurseurs potentiels du diazonamide et de l’azonazine. Une méthodologie générale de synthèse de benzofuroindolines par un couplage oxydant direct entre des indoles 2,3-disubstitués et des phénols a été développée. Cette réaction implique l’oxydation de l’indole par du N-iodosuccinimide. L’iodoindolénine intermédiaire réagit par action d’un sel d’argent, via une réaction de Friedel-Crafts avec le phénol pour donner la benzofuroindoline en une étape. Une bibliothèque de diverses benzofuroindolines a pu être obtenue par cette stratégie.Cette dernière méthodologie a été appliquée à la synthèse de modèles hexacycliques complexes de la voacalgine A et de la bipleiophylline à partir d’indoles apparentées à la pleiocarpamine que nous avons synthétisés. Une autre stratégie de synthèse du motif benzofuroindoline de la voacalgine A et de la bipleiophylline impliquant l’oxydation d’un catéchol en orthoquinone a également été étudiée. / The benzofuro[2,3-b]indoline core is a complex structure present in several natural products such as azonazine, voacalgine A, bipleiophylline and diazonamide A. These products possess an interesting biological activity and especially diazonamide A with an IC50 below 15ng/mL on different cancer cells lines. Some of these compounds have never been synthesize. It is postulated that the biogenesis of the benzofuroindolines natural products implies an oxidative coupling between indoles and phenols. Therefore, we wished to develop a bioinspired synthesis of benzofuroindoline core.Inspired by the biosynthesis of azonazine and diazonamide A, we developed an diastereodivergent arylation of tryptophan by tyrosine. The existing synthetic methodology of benzofuroindoline involving an oxidative coupling do not allow a stereoselective control. We solved this problem by doing a Friedel-Crafts reaction between a protected tyrosine and the exo-, and endo-bromopyrroloindolines obtained stereoselectively from tryptophan. This reaction witch proceeds with a retention of configuration allowed us to access selectively azonazine and diazonamide A precursors. A general methodology of benzofuroindoline synthesis by an oxidative coupling between 2,3-disubstituted indoles and phenols has then been developed. This reaction proceeds by oxidation of the indole with N-iodosuccinimide. The resulting iodoindoline was then engaged in a Friedel-Crafts reaction with a phenol in presence of a silver salt to form the desired benzofuroindoline in a one-pot operation. Through this method, a library of several benzofuroindolines has been created.This last methodology has been applied to the synthesis of complex hexacyclic voacalgine A and bipleiophylline analogs from pleiocarpamine-like indoles. Another strategy towards the voacalgine A and bipleiophylline benzofuroindoline core has also been studied and involves the oxidation of a catechol into an orthoquinone which can react with an indole.

Benzofuroindolines

Couplage oxydant

Voacalgine A

Diazonamide A

Indoles

Phénols

Bromopyrroloindolines

Benzofuroindolines

Oxidative coupling

Voacalgine A

Diazonamide A

Indoles

Phenols

Bromopyrroloindolines