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101	Diels-Alder routes to Prosopis alkaloids Birkinshaw, Timothy Nicholas January 1987 (has links) This thesis describes the investigation of the Diels-Alder reaction of the imine (140) with the diene (141) to give four products (142,143,156, 157). At low temperatures the enone (156) is the major product while at ambient temperature the bicyclic compounds (142) and (143) predominate. The reaction is highly solvent dependent, with the best results being obtained in benzene solution. Lewis acids appear to have little effect on the course of the reaction. The reaction of the imine (140) with the TBDMSO diene (159) gives the silyl enol ethers (160) and (161) as well as the above four products. Possible mechanisms are discussed. COOM. OSIM., In order to investigate asymmetric induction the 8- phenylmenthyl derived imine (194) was reacted with the diene (141) under a variety of conditions but no asymmetric induction was seen in the exo adducts, and only a small degree in the endo adducts. The bromination and Baeyer-Villiger oxidation of the ketone (142) were investigated and the resultant lactone (209) was converted into the bromide (258). ISOPROSOPININE A (84) ISOPROSOPININE B (S3) Several methods to prepare a suitable side chain for isoprosopinine A were investigated. The prosopis alkaloids isoprosopinine A (84) and B (85) were prepared by alkylation of the sulphones (252) and (266) with the bromide (258) followed by reductive removal of the N-tosyl and sulphone moieties with sodium amalgam. The imine (274) has been prepared and shown to undergo a Lewis acid catalysed imino-Diels-Alder reaction with the diene (141) to give the adducts (283) and (284). hCH,M=CHCOjM» (2T4) Alternative imines for asymmetric synthesis, such as (299) and (288) have been investigated. Preparation of the sulphinamide imine (299) has proved difficult. Attempts to carry out aqueous Diels-Alder reactions of the silyloxydiene (159) with iminium ions, generated in situ from amines, aldehydes and acids, have proved fruitless. 547 Imino Diels-Alder reaction
102	Estudos sinteticos para a obtenção de derivados do biciclo [4.4.0]deceno, via reações de Diels-Alder Miranda, Domingos Savio de 27 July 2018 (has links) Orientador: Anita Jocelyne Marsaioli / Tese (doutorado) - Universidade Estadual de Campinas, Instituto de Quimica / Made available in DSpace on 2018-07-27T06:42:42Z (GMT). No. of bitstreams: 1 Miranda_DomingosSaviode_D.pdf: 7629431 bytes, checksum: 2131de0ae02eb8177799e5d3058686a2 (MD5) Previous issue date: 1999 / Doutorado Síntese orgânica Diels-Alder, Reação de
103	Réticulation de polymères polysulfure par réaction thiol-Michaël contrôlée / Polysulfide polymers Crosslinking by a controlled thiol-Michaël reaction Froidevaux, Vincent 13 November 2014 (has links) Les mastics polysulfures sont très utilisés dans l'aéronautique, ceci grâce à leur bonne tenue au froid et leur résistance au carburant. La plupart d'entre eux sont des bicomposants (un polymère polysulfure et un durcisseur avec éventuellement un catalyseur dans l'un des composants). Les formulations de mastic, réticulé au MnO2, permettent d'avoir des temps de gel de 2 jours, avec une réticulation complète au bout de 70 jours. Cependant, ce temps de gel long induit un temps de réticulation trop long. Ainsi, l'objectif de cette thèse était de créer un nouveau type de mastic, qui serait idéalement monocomposant avec un temps de gel toujours long, voir infini et qui réagirait sur demande après stimulus avec un temps de réticulation court. C'est ce qui est appelé le concept SCOD (sealant cure on demand). Pour cela, il faut bloquer un des trois réactifs, et que celui-ci soit déblocable sur demande à l'aide d'un stimulus simple industriellement tel que la température (cible entre 60-80°C). Le concept de blocage choisi est la réaction de Diels-Alder sur des composés accepteurs de Michaël. En effet, cette réaction est réversible et la cycloréversion permet la déprotection de la double liaison réactive. Après déblocage, l'accepteur de Michaël peut réagir avec le polysulfure. Une première étude, sur les accepteurs de Michaël, a permis de déterminer que les fonctions maléimides, en présence de DABCO, donnent les meilleures cinétiques pour la réaction avec les thiols du polysulfure. Une deuxième étude, sur la réaction de Diels-Alder et rétroDiels-Alder, a prouvé la faisabilité du projet et a permis de sélectionner les dérivés du furane comme agents bloquants pour répondre à la fourchette de température imposée. Ensuite, des durcisseurs polymaléimides aliphatiques ont été synthétisés à l'aide des Jeffamines® d'Huntsman et bloqués avec le furfuryl acétate, afin d'être utilisés pour la création de matériaux suivant le concept SCOD. Le temps de gel obtenu avec les durcisseurs bloqués, était de 7 jours et un matériau était obtenu après 17 heures de chauffe. Le concept SCOD a donc été démontré. Cette étude a, ensuite, été extrapolée au Centre de Recherche d'Hutchinson en formulation modèle sur de plus grandes quantités. Aussi, les propriétés des mastics obtenus ont été déterminées et répondaient à une majorité des critères du cahier des charges.. Le déblocage a été amélioré après ajout d'un thiol tétrafonctionnel (PETMA, co-agent) et l'utilisation d'un autre catalyseur (DBU), Le temps de déblocage étant encore trop long et le bloquant, relargué dans la formulation, forme des porosités dans le mastic et dégrade, de fait, les propriétés de celui-ci. Ainsi une dernière partie d'amélioration a été effectuée. En effet, dans celle-ci, une nouvelle génération de durcisseur, cette fois-ci aromatique, et d'agent bloquant, jouant le rôle de plastifiant non volatil, a été créée et testée en laboratoire. Ceux-ci ont présenté de très bons résultats préliminaires avec des temps de déprotection plus courts et des bloquants moins volatils à la température de déblocage comparé au furfuryl acétate. L'extrapolation doit se poursuivre fin 2014-début 2015 sur ces nouveaux durcisseurs en formulation mastic modèle. / Polysulfide sealants are widely used in aviation because of their good resistance to low temperature and to fuels. Most of them are bycomponent (a polysulfide polymer and a crosslinking agent and, eventually a curing catalyst in one of them). These sealant formulations, crosslinked with MnO2, have a gel time of two days, with a full curing after 70 days. However, because of this short gel time, the curing time is too long. Thus, the objective of this thesis was to create a new type of sealant, monocomponent, with still a long gel time, ideally infinite, that could react on demand after stimulus, in order to have a short curing time. This concept is called SCOD concept (sealant cure on demand). These criteria require to block one of the three products, and this one should be unblocked on demand using an ease stimulus such as temperature. The system chosen as blocking principle is the Diels-Alder reaction of a Michaël acceptor. Indeed, this reaction is reversible and the cycloreversion allows to unprotect the reactive double bond. After the unblocking reaction, the Michaël acceptor may react with the polysulfide. A primary study, on Michael acceptors, allowed to determine that maleimide function, in the presence of triethylamine, gives the best kinetics for reaction with polysulfide's thiol. A second study, this time on the Diels-Alder and retroDiels-Alder reaction, proved the feasibility of the project and allowed to select furan derivatives as blocking agents. Then, aliphatic polymaleimides hardeners were synthesized using Huntsman's Jeffamine and were blocked with the acetate furfuryl, so as to be used for creating SCOD materials. The gel time obtained with blocked hardener was 7 days at room temperature and after heating for 17 hours, a material was obtained; the SCOD concept has been demonstrated. The study was, then, extrapolated to Hutchinson's research and development department on bigger quantities to do some basic formulation. In addition, the sealant's characteristics have been determined and have shown very interesting results. Unblocking time was improved after adding tetrafunctional thiols (co-agent) and one another catalyst (DBU). The unblocking time was too long and the blocking agent, once released into the formulation, formed porosities into the sealant and, because of it, damaged the properties of the sealant. A latter part was done to improve the SCOD concept. Two new generations of hardener, aromatic this time, and blocking agent, acting as a non-volatile plasticizer, were created and tested in laboratory. These have presented very good preliminary results. Indeed, the unblocking time is much shorter and the unblocking agent is less volatile at high temperature compare to acetate furfuryl. The scaling up to pilot level is under way (end of 2014). Réticulation Polysulfure Thiol-Michaël Scod Diels-Alder RétroDiels-Alder Crosslinking Polysulfide Thiol-Michaël Scod Diels-Alder RetroDiels-Alder 540
104	Preparation and reactivity of heterosubstituted 1,3-Dienes Stone, Charles January 1988 (has links) The chemoselective hydrozirconation reaction of a series of 1-ene-3-yne molecules 51a-d, using the commercially available hydride reagent, Cp₂ZrCl(H) 1, provides an efficient route to the syntheses of 1,3-dienes 55a-d, substituted at the 1-position by the Cp₂ZrCl moiety. Similar chemoselectivity was observed in the hydrozirconation reaction of α, β-unsaturated nitriles, to generate the corresponding 1-azadienyl complexes 68-71. The complexes 55a-d were found to be useful general precursors in the preparation of other heterosubstituted 1,3-dienes. Thus, corresponding tin-, phosphorus-, boron-, selenium-and sulfur-heterosubstituted 1,3-dienes 77a-d, 79a-d, 87a-d, 88a-d and 89a-d were readily prepared in good to excellent yields by a stereoselective transfer reaction from zirconium. The 1-azadienyl complexes also served as useful starting materials in the preparation of selenium-and phosphorus-substituted 1-azadienes. The selenium-substituted 1,3-dienes 88a-d underwent a facile isomerization reaction when exposed to fluorescent light, and when thermolysed in the dark at 80°C in unsealed reactors. Mechanistic studies of this isomerization process suggested that an intermolecular pathway involving free radical intermediates was operable. A comparable photochemical isomerization reaction of the sulfur-substituted 1,3-dienes was also observed. When the cycloaddition reactions of 88a-b and 88d with maleic anhydride were performed in the absence of light at reson able temperatures, good yields of the expected endo-cycloadducts were obtained. However, when the same reactions were repeated in room light or at temperatures in excess of those required for formation of the endo-cycloadducts an, interesting, apparent [l,3]-shift of the phenylselenenyl moiety resulted. The results of a crossover experiment indicated that this rearrangment was intermolecular in nature. The preparation of the trialkylstannyl and phenylselenenyl 2-substituted 1,3-dienes (128 and 129) was achieved via a transmetalation reaction of the Grignard reagent 24. The Diels-Alder reactivity of 1,3-dienes 128 and 129, with a series of electron-deficient dienophiles, was successfully investigated. [Formula Omitted] / Science, Faculty of / Chemistry, Department of / Graduate Diels-Alder reaction Organometallic compounds
105	Annulations leading to bicyclic dienes : Diels-Alder reactions of (some of) the dienes and dolastane diterpenoid syntheses Friesen, Richard William January 1988 (has links) The preparation of bicyclic dienes of the general structures (72), (82), (83) and (162) is described. These materials have been prepared via a novel annulation sequence involving (a) the alkylation of various carbonyl containing substances with the donor acceptor reagents (43), (44), (108)-(114) and (154), (b) the conversion of the alkylation products into the enol triflates, and (c) the palladium(O) catalyzed intramolecular coupling of the enol triflate-vinylstannane moieties via either a "one" or "two pot" process. The Diels-Alder reactions of the "parent" bicyclic diene (75), the cisoid cis diene (145) and the cisoid trans diene (146) are described. Four basic questions regarding the face selectivity, regioselectivity, stereoselectivity and comparative reactivity of the dienes in the formation of the Diels-Alder adducts of general structure (174) are addressed. The annulation sequences described above have been applied to the first total syntheses of the dolastane diterpenoids (±)-(14S)-dolasta-1(15),7,9-trien-14-ol (239) and (±)-amijitrienol (242). Thus, the substituted cycloheptanone (262), prepared in seven steps from the commercially available material (261), was converted via a series of transformations, including the newly developed annulation process, into the bicyclic diene (264). Introduction of the two appendages to (264) proceeded stereoselectively to provide the keto vinylstannane (265). Ring closure was effected with the desired stereochemistry to yield (±)-(239). A reduction, deprotection sequence afforded the ketone (249) from the diene ketal (263). A series of three steps involving an aldol condensation, Swern oxidation and stereoselective methylation provided the diketone (290). Chemo- and stereoselective reduction of (290) followed by protection of the alcohol moiety yielded the silyl ether (303). Cyclization, according to the methodology described herein, and deprotection of the silyl ether moiety produced (±)-(242). [Formula Omitted] / Science, Faculty of / Chemistry, Department of / Graduate Diolefins -- Synthesis Diels-Alder reaction
106	Protein generation and delignification of alder sawdust by thermophilic microorganisms Wolde-Tsadick, Maheteme Selassie January 1978 (has links) It has been indicated through a review of the literature that wood by-products have a potential as a dietary source of energy for the ruminant animal. However, lignin constitutes a barrier to the proper utilization of cellulose. Generally, any treatment to remove or alter lignin makes the cellulose within lignocellulose materials more susceptible to the activity of the cellulolytic enzymes. Therefore, an efficient biological treatment would require a system to solubilize or to remove lignin from the lignin-carbohydrate complex. Cellulose within ruminant feeds forms an effective substrate for eventual conversion to body protein. There are several methods available for delignification. This study was carried out using the thermophilic aerobic oxidation method for which swine manure was used both as the source inocula and initial culture media. In the process of degradation, a part of the energy produced was utilized by the bacteria for cell function and multiplication. The remainder of the available energy was released as heat energy. In this method the heat necessary to maintain the temperature in the thermophilic range was derived from both mechanical and from microbial activity. Thermophilic activity is considered to reduce the time required for organic waste digestion over that experienced by mesophilic digestion. The rate of the destruction of pathogenic bacteria, virus and other organisms is increased as a result of the high temperatures fermentation. Batch studies conducted to delignify alder sawdust by the use of the aerobic thermophilic oxidation method demonstrated that the lignin content of sawdust can be reduced by as much as 74%, and crude bacterial protein was generated by approximately 17%. Constant supply of small amounts of swine manure ensures high temperature maintenance. Periodical addition of 2 kg sawdust within thermophilic temperature range results in better delignification. / Land and Food Systems, Faculty of / Graduate Wood waste Alder Proteins --Synthesis
107	A Pathway to Artificial Metalloenzymes Fischer, Johannes 12 1900 (has links) The advancement of catalytic systems and the application thereof has proven to be the key to overcome traditional limitations of industrial-scale synthetic processes. Converging organometallic and biocatalytic principles lead to the development of Artificial Metalloenzymes (ArMs) that comprise a synthetic metal catalyst embedded in a protein scaffold, thereby combining the reactivity of the former with the versatility of the latter. This synergistic approach introduces rationally designed building blocks for the catalytic site and the host protein to assemble enzyme-like structures that follow regio-, chemo-, enantio- and substrate-selective principles. Yet, the identification of suitable protein scaffolds has thus far been challenging. Herein we report a rationally optimized fluorescent protein host, mTFP, that was engineered to have no intrinsic metal binding capability and, owing to its robust nature, can act as scaffold for the design of novel ArMs. We demonstrate the potential of site-specific modifications within the protein host, use protein X-Ray analysis to validate the respective scaffolds and show how artificial mutant binding sites can be introduced. Transition metal Förster Resonance Energy transfer (tmFRET) methodologies help to evaluate micromolar dissociation constants and reveal structural rearrangements upon coordination of the metal centers. In conjunction with molecular insights from X-Ray crystallographic structure determination, dynamics of the binding pocket can be inferred. The versatile subset of different binding motifs paired with transition metal catalysts create artificial metalloenzymes that provide reactivities which otherwise do not exist in nature. As a proof of concept, Diels-Alder cycloadditions highlight the potential of the present mTFP based catalysts by stereoselectively converting azachalcone and cyclopentadiene substrates. Screens indicate an enantiomeric excess of up to 60% and provide insights into the electronic and geometric constitution of the first coordination spheres binding the catalysts. We further apply two general principles to optimize selective conversions of the generated ArMs. 1) Utilizing site-specific mutagenesis, increased hydrophobicity is introduced to the second coordination sphere. 2) In-vitro post-expressional modification utilizing N-hydroxysuccinimide esters is anticipated to introduce a sterically more demanding second coordination sphere that influences substrate entry by favoring a particular stereoisomer. The latter approach however also enhances the host proteins robustness under processing conditions. The presented study investigates a novel approach to create artificial metalloenzymes based on non-enzymatic precursor proteins. It illustrates means of modification and functionalization. Further guidance to overcome the general problem of insufficient stereoselectivity and stability is also presented. In view of the insights gained we see the importance of further mutagenic studies, i.e. through means of guided evolution, to extend stereoselectivities. In-vivo applications of artificial metalloenzymes could thus be used to pursue metabolomic engineering. Metalloenzymes fluorescent protein Diels-Alder
108	A study of the carbohydrate and moisture contents of Rhamnus frangula 'Tallhedge' during storage / Smith, Elton Mansfield January 1967 (has links) No description available. Agriculture Nursery stock Alder buckthorn
109	Woody riparian species patterns along northeast Oregon mountainous streams and the relationship to riparian capability / Yancey, Jennifer M. January 1900 (has links) Thesis (M.S.)--Oregon State University, 2008. / Printout. Includes bibliographical references (leaves 104-109). Also available on the World Wide Web.
110	Study of Diels-Alder reactions in the syntheses of Yuehchukene analogues and optically active Yuehchukene 曹國安, Cao, Guo-an. January 1993 (has links) published_or_final_version / Chemistry / Doctoral / Doctor of Philosophy Indole alkaloids - Synthesis. Diels-Alder reaction.

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