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Síntese de potenciais intermediários de princípios ativos, buscando sempre o emprego de técnicas para proteção do meio ambiente / Synthesis of potential intermediaries active, always seeking the use of techniques to protect the environmentJuliana Aparecida dos Santos Leite 03 December 2012 (has links)
A química verde, que tem a preocupação com o desenvolvimento de tecnologias e processos incapazes de causar poluição, tem sido citada cada vez mais em destaque, pela mídia, como mais uma das iniciativas para prevenção da poluição desenfreada. Neste estudo tem-se buscado a redução ou eliminação de solventes, adaptação dos sistemas reacionais para operação em temperatura ambiente e aumento do rendimento em processos de reações guiados pelos doze princípios da química verde. O objetivo deste trabalho consiste na síntese de intermediários de princípios ativos para uso industrial, através de processos de formação de oximas e oximas éteres. O trabalho foi dividido em duas etapas principais, preparação de oximas e preparação de oximas éteres. Na primeira preparou-se oximas através da reação de aldeídos (benzaldeído, furfuraldeído, salicilaldeído e p-anisaldeído) e cetonas (ciclopentanona, ciclohexanona, metil etil cetona, benzofenona e acetofenona) com cloreto de hidroxilamina, sem a utilização de solventes orgânicos e sem adição de água. Na segunda o objetivo foi preparar oximas éteres (O-butil benzaldeído oxima, O-butil furfuraldeído oxima, N-butoxi-(2-butoxifenil) metanimina, O-butil p-anisaldeído oxima, O-butil ciclohexanona oxima, O-butil ciclopentanona oxima e O-butil metil etil cetona oxima) a partir da alquilação de oximas utilizando um suporte sólido de KF/Al2O3 como catalisador. Todos os compostos foram caracterizados por RMN 13C (apt) e alguns por infravermelho e RMN 1H. / Green chemistry, which is concerned with the development of technologies and processes incapable of causing pollution, has been cited increasingly highlighted, by the media, as another of the initiatives to prevent pollution rampant. This study has sought a reduction or elimination of solvents, reaction to adjust the systems operating at room temperature and yield increase in reactive processes that are guided by the twelve principles of green chemistry. The objective of this work is the synthesis of active intermediates for industrial use, through processes of formation of oximes, oximes ethers. The work was divided into two phases, preparation of oximes and preparation of oximes ethers. In the first was prepared oximes by reaction of aldehydes (benzaldehyde, furfuraldeyde, salicylaldehyde and p-anisaldeyde) and ketones (cyclopentanone, cyclohexanone, methyl ethyl ketone, benzophenone and acetophenone) with hydroxylamine chloride without the use of organic solvents and without adding water. For the second was prepared oximes ethers (O-butyl benzaldheyde oxime, O-butyl furfuraldeyde oxime, N-butoxy-(2-butoxyphenyl) methanimine, O-butyl p-anisaldeyde oxime, O-butyl cyclohexanone oxime, O-butyl cyclopentanone oxime e O-butyl methyl ethyl ketone oxime) from the alkylation of oximes, using a solid support as catalyst KF/Al2O3. All compounds were characterized by 13C NMR (apt) and some infrared and 1H NMR.
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C−H Alkylations and Alkynylations Using Ruthenium, Nickel and Manganese ComplexesRuan, Zhixiong 10 October 2017 (has links)
No description available.
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Camphor derivatives in asymmetric synthesis: a synthetic, mechanistic and theoretical studyLobb, Kevin Alan January 2008 (has links)
A series of 3,3-ethylenedioxy-exo- and endo- bornyl esters have been prepared and subjected to α-benzylation using lithium diisopropylamide and benzyl bromide. In the exo-series of esters the diastereofacial selectivity of benzylation was found to improve (up to 34% d.e.) as the steric bulk of the O-alkyl group increased, whereas in the endo-series, a surprising decrease in stereoselectivity was observed as the steric bulk increased – an observation attributed to flexibility of the metal-coordinated endo-enolate system, compared to the relative rigidity of the exo analogues. The conformational options for each series was explored at the density functional theory level. Reductive cyclization of a range of specially prepared N-carbobenzyloxy-amino acid esters has been shown to afford the corresponding derivatives, contrary to previous reports that the cyclization is limited to the glycine derivative. The cyclization sequence has been explored in detail, and the yield has been shown to be critically dependent on the stereochemistry of the α-amino acid moiety. Moreover, it seems that reductive cyclization occurs more readily with the endo- rather than the exo-bornyl N-CBZ-amino acid esters. Molecular modelling of relevant transition states at the DFT levels indicates that L-amino acid-derived systems should cyclize preferably in the exo-series and D-amino acid-derived systems should cyclize preferably in the endo series. Studies of alkylation of an iminolactone system have reported an interesting anomaly - exo-methylation is observed while endo-alkylation predominates for larger alkyl groups. This has been studied in detail at the DFT level, and the anomaly is attributed to thermodynamic control in the methyl case, whereas kinetic control is the norm in this system. Preliminary computer modelling of the intramolecular rearrangement of a 3,3-xylylbornyl system at the HF/STO-3G level raised doubts concerning the structure assigned by Evans to one of the rearrangement products, prompting an X-ray crystallographic analysis and leading to the revision of its structure from a pinene to a camphene derivative. The previously elusive spiro[bornane-3,2’-indan]-2-exo-tosylate has been successfully isolated, and the kinetics of its ready decomposition to the two camphene products has been followed by 1H NMR spectroscopy. The endo-tosylate analogue, on the other hand, was found to be remarkably stable. Kinetic data obtained for rearrangement of this exo-bornyl tosylate have indicated the operation of tandem autocatalytic and pseudo-first-order transformations leading sequentially to the two isomeric camphene products. An extensive coset analysis of all possible rearrangement processes of the initially-formed cation formed from decomposition of the exo-tosylate has afforded a graph containing 336 classical cations (modelled at the AM1 and B3LYP levels) and 526 transition-state complexes (modelled at the AM1 level). This analysis afforded a viable 4-step classical mechanism connecting the first camphene product with the second. A more realistic study, involving non-classical carbocations, has afforded a graph of all possible (classical and non-classical) cations that could be formed by rearrangment of the initiallyformed cation. The resulting graph confirms that the only energetically feasible path corresponds to the classical mechanism, but simply involves two steps, including a novel, concerted Wagner-Meerwein – 6,2-hydride shift – Wagner-Meerwein rearrangement.
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Chimie des acrylamides chiraux : nouvelles méthodologies et application à la synthèse de nouvelles architectures moléculaires / Chemistry of chiral acrylamides : new methodologies and application to the synthesisof new molecular architecturesGratais, Alexandre 03 October 2014 (has links)
Les réactions permettant la création de liaisons carbone-carbone sont des outils essentiels dans le domaine de la synthèse organique. Elles permettent d'accéder à des structures de plus en plus complexes. Cependant le contrôle de ces réactions en utilisant des partenaires hautement fonctionnalisés reste un enjeu majeur.Le développement de nouvelles méthodologies de synthèse basées sur la réactivité des acrylamides chiraux dérivés d'acides aminés est étudié dans ces travaux. Une nouvelle version de la réaction d'alkylation de pyrroles de type Friedel-Crafts a été développée en utilisant le caractère électrophile d'acrylamides chiraux hautement fonctionnalisés. Le pyrrole peut être monoalkylé ou dialkylé de façon sélective conduisant à de nouvelles structures hétérocycliques portant des enchaînements peptidiques pouvant contenir jusqu'à quatre résidus d'acides aminés. Les acrylamides chiraux portant un motif allyltriméthylsilane conjugué ont été utilisés comme nouveaux réactifs permettant des réactions d'allylation hautement diastéréosélectives et chimiospécifiques vis-à-vis d'aldéhydes. L'extension de cette méthodologie aux aldéhydes α- aminés a été réalisée et permet un accès aisé à des structures analogues des acides γ-aminés. / Reactions allowing carbon-carbon bond creation are essential tools in the field of organic synthesis. These reactions are used to access to more and more complex structures. However their control in the case of highly functionnalized partners is still a serious concern.Development of new methodologies based on the reactivity of aminoacid derivating chiral acrylamides is reported. A new version of pyrrole alkylation reaction was developed using the electrophilic behaviour of highly functionnalized chiral acrylamides. Pyrrole can be selectivly monoalkylated or dialkylated leading to new heterocyclic structures bearing peptidic sequences containing up to four aminoacids residues. Chiral acrylamides bearing a conjuguated allyltrimethylsilane moiety have been used as new reagent in highly diastereoselective and chemospecific towards aldehydes allylation reactions. This methodology was extended to α-aminoaldehydes allowing easy access to γ-aminoacidsanalogues.
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Syntéza a studium nových derivátů diketopyrrolopyrrolů (DPPs) pro organickou elektroniku / The synthesis and study of new derivatives of diketopyrrolopyrroles for organic electronicsCigánek, Martin January 2017 (has links)
This diploma thesis describes organic pigments of diketopyrrolopyrroles (DDPs) possessing properties applicable in attractive and perspective areas of organic electronics and photonics. The modification of the DPP skeleton was performed by nucleophilic substitution by various alkyl chains and 5 series of DPP derivatives were prepared. The regioselectivity of N-alkylation and also the photophysical properties of the prepared derivatives were studied. A key product of this work is the N,N'-ethyladamantyl derivative of DPP, which exhibited ambipolar characteristic with excellent electron mobility of 0.2 cm2 V–1 s–1. Further, the -conjugation of the above-mentioned DPP derivative was extended by 1 and 2 thiophene units at positions 3,6 and the effect of this modification on optical properties of the resulting derivatives was investigated. A new modified N,N'-unsubstituted DPP derivative was also prepared. The last point of this thesis was the study of the incorporation of formyl functional groups into the skeleton of key N,N'-ethyladamantyl DPP derivative.
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Stereoselective Radical Transformations with In Situ-Generated Aryl and Alkyl Diazomethanes via Co(II)-Based Metalloradical CatalysisWang, Yong January 2018 (has links)
Thesis advisor: X. Peter Zhang / Among recent advances in devising different strategies for stereoselective homolytic reactions, metalloradical catalysis (MRC) has emerged as a conceptually new approach for controlling stereoselectivity of radical reactions. As stable metalloradicals, cobalt(II) complexes of D₂-symmetric chiral amidoporphyrins [Co(D₂-Por)] have proven to be effective catalysts for homolytically activating a series of diazo compounds to generate α-Co(III)-alkyl radicals for various C-centered radical transformations with well-confined reactivity and selectivity. Nevertheless, the applications of donor-, donor/donor- and alkyl diazo compounds have been largely underdeveloped. This dissertation mainly focuses on how the chemistry of these types of diazo compounds was initiated by using commonly available aldehyde-derived sulfonylhydrazones as diazo surrogates. In the context of Co(II)-MRC, in situ-generated diazo compounds can be effectively activated for various asymmetric radical transformations, including intermolecular radical cyclopropanation of alkenes and intramolecular radical alkylation of C–H bonds. First, as a proof of concept, we have demonstrated the feasibility of using aryl aldehyde-derived sulfonylhydrazones as new radical precursors for diastereo- and enantioselective radical cyclopropanation of alkenes, and proven that the diazo in situ-generation protocol is well compatible with the catalytic radical process. Second, we have expanded the application of Co(II)-based MRC to a new territory by employing aliphatic diazo compounds for asymmetric cyclopropanation. The system is highlighted by the excellent enantioselectivity together with remarkable cis-selectivity. Finally, with the utilization of linear aliphatic aldehyde sulfonylhydrazones as diazo precursors, we have presented a new radical cyclization mode, involving hydrogen atom abstraction and radical substitution, for enantioselective synthesis of common five-membered rings via radical C–H alkylation. The system would offer a new retrosynthetic paradigm for construction of ring structures, where C–C bond can be disconnected as common C=O and C–H units of linear aldehydes. / Thesis (PhD) — Boston College, 2018. / Submitted to: Boston College. Graduate School of Arts and Sciences. / Discipline: Chemistry.
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Coal fly ash and acid mine drainage based heterogeneous Fe catalysts Friedel-Crafts alkylation reactionHlatywayo, Tapiwa January 2020 (has links)
Philosophiae Doctor - PhD / The catalytic support materials used in the present study are zeolite HBEA and MCM-41. These high silica zeolites were synthesised from coal fly ash (CFA) waste via a novel approach that involved a fusion step, acid assisted silica extraction and removal of Al, Ca and Na from the silica by treatment with oxalic acid. The generated silica was converted to HBEA and MCM-41 via conventional hydrothermal treatment. The metal incorporation onto HBEA was done via two approaches namely; liquid phase ion exchange (LIE) and wet impregnation (WI) while the loading on MCM-41 was only done via WI since the material does not possess exchange sites. The metal solution precursors were AMD and Fe extracted from CFA (FeAsh) via acid leaching followed by pH regulation by concentrated NaOH. This is the first time these solutions were tested as possible metal precursors in catalyst synthesis. / 2021-08-30
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Superacidic Mesoporous Catalysts Containing Embedded HeteropolyacidsKuvayskaya, Anastasia, Garcia, Saul, Mohseni, Ray, Vasiliev, Aleksey 01 January 2019 (has links)
Abstract: Superacidic mesoporous silica materials containing embedded heteropolyacids (HPAs) were synthesized by sol–gel method in acidic media. In these materials, HPAs were immobilized into the silica structure covalently. The most acidic materials were obtained at the use of Pluronic P123 as a non-ionic pore-forming agent. Ionic surfactants also formed mesoporous structures, however, their interaction with HPA reduced acidity of the products. Obtained materials were tested as heterogeneous catalysts in liquid-phase alkylation of 1,3,5-trimethylbenzene by 1-decene. The most effective catalyst demonstrated higher conversion of starting substances to long-chain isomeric alkylbenzenes as compared to the activity of zeolite HY, a well-known alkylation catalyst. No leaching of HPA from silica gel was observed after the alkylation.
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Effect of Organosolv Lignin and Extractable Lignin on Enzymatic Hydrolysis of LignocellulosesTan, Xin January 2020 (has links)
No description available.
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Sequence-Specific Alkylation By Pyrrole-Imidazole Polyamide Seco-CBI Conjugates To Target Cancer-Associated Mutations. / 変異がん遺伝子を標的としたピロール・イミダゾールポリアミドseco-CBIコンジュゲートによるDNA配列特異的アルキル化Rhys, Dylan Taylor 23 March 2015 (has links)
京都大学 / 0048 / 新制・課程博士 / 博士(理学) / 甲第18824号 / 理博第4082号 / 新制||理||1587(附属図書館) / 31775 / 京都大学大学院理学研究科化学専攻 / (主査)教授 杉山 弘, 教授 三木 邦夫, 教授 秋山 芳展 / 学位規則第4条第1項該当 / Doctor of Science / Kyoto University / DGAM
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