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251	Supported metal catalysts for friedel-crafts alkylation Hlatywayo, Tapiwa January 2013 (has links) Doctor Educationis / The research focused on the synthesis, characterisation and activity of zeolite supported metal catalysts for the Friedel-Crafts alkylation of benzene with t-butyl chloride. Alkyl benzenes are traditionally produced via systems that employ the use of Lewis acids or strong mineral acids. There have been widespread concerns over these approaches based on their environmental impacts and separation difficulties. Recent approaches have endeavoured the much to use more environmentally eco-friendly systems and zeolites have proved to be versatile support materials. The use of zeolites has also shown to greatly improve product selectivity as well as easing separation constraints. However the adoption of zeolites on large scale Friedel-Crafts alkylation has been hampered by the high cost of zeolite production from commercial sources. On the other hand fly ash has been found to be a viable starting material for zeolite synthesis. Apart from that South Africa is faced with fly disposal challenges and there is continual accumulation of fly ash at the coal fired power stations, which provide about 77 % of the power produced in the country. In this light the use of fly ash will help to reduce the disposal constraints as well as providing a cheap starting material for zeolite synthesis. In this study the hierarchical Zeolite X has been successfully synthesised from fly ash via a hydrothermal treatment. The zeolite was then loaded with Fe/Mn via two approaches namely liquid phase ion exchange and incipient wetness impregnation. For comparison purposes seasoned commercial support materials namely HBEA and MCM- 41 were also loaded with the same metals and characterised with various techniques namely; HRSEM, EDS, HRTEM, XRD, SAED, ICP-OES and N2 adsorption analysis, It was found from the characterisation undertaken that the integrity of the respective supports was generally retained upon metal loading. Both the ICP-OES and the EDS proved that the desired metals were successfully introduced onto the zeolitic support materials. The calculated percentage metal loading for the catalysts prepared via incipient wetness impregnation was closely related to the actual values obtained from the ICP-OES analysis for both the monometallic and the bimetallic catalysts (Fe/Mn). It was observed that the amount of metal that can be introduced on a zeolite via liquid phase ion exchange is largely dependent on the cation exchange capacity of the zeolite Supported metal catalysts for FC alkylation Page v and of the catalysts prepared using 0.25 M Fe solution it was found that Zeolite X had the highest Fe wt% loading of 11.4 %, with the lowest loading of 2.2 % obtained with the MCM-41 supported catalyst. The XRD patterns for the both HBEA and the MCM-41 supported metal catalysts resembled the patterns of the respective prestine support materials except in the case of catalysts with anFe wt % of more than 10, which exhibited peaks due to the Fe2O3 crystallites. In the case of the hierarchical Zeolite X, the metal loaded support had a significant reduction in the XRD peak intensities. The prepared catalysts were tested for the alkylation of benzene with t-butyl chloride. The benzene was also used as the solvent. The alkylation reaction was carried out in a round bottomed flask under reflux conditions and stirring at a temperature of 45 oC over a period of 5 h. A total of 18 catalysts was tested and the highest percentage conversion of 100 % was obtained with the 10%FeH after a reaction time of 2 h. The general trend obtained with the majority of the catalysts was characterised with a rapid initial increase and then steady state was achieved. Generally after a reaction time of 3 h almost all the catalysts had reached steady state in terms of the percentage conversion obtained. The outcomes reflect that the inclusion of Mn does not enhance the conversion but rather decreases it. It was also found that the Mn was not active in the alkylation of benzene as shown by the inactivity of the 10%MnM, where 10% by weight Mn was loaded on MCM-41. However the other monometallic catalysts containing Mn supported on Zeolite X and HBEA were found to be active. The activity is attributed to the presence of Brønsted acid sites in these zeolites which are not present in MCM-41. The selectivity studies reflect that the inclusion of Mn does slightly improve the selectivity towards the formation of the monoalkylated product (t-butyl benzene). The highest selectivity of 91.1 % was obtained with the 10%FeMnM after a reaction time of 4 h. MCM-41 supported catalysts had a relatively higher selectivity compared to the other supports. Considering the Fe monometallic catalysts tested it generally can be said that the yield were in the order HBEA > MCM-41 > Zeolite X. It however should be noted that the percentage yield is calculated from the conversion and selectivity percentages, this implies that the factors affecting these parameters will consequently affect the percentage yield obtained. Supported metal catalysts for FC alkylation Page vi The alkylation reaction was found to be characterised by the formation of two intermediate products which could not be identified. These products were formed during the transient start up stages of the reaction and would disappear from the reaction mixture with longer reaction times, and after 3 h in almost all the reactions studied the intermediates were not detected in the reaction mixture. The main products found were the monoalkylated product (desired product) and the para isomer (1,4-t-di-butyl benzene). There were no other dialkylated isomers or trialkylated products detected. The formation of the para isomer was usually after a reaction time of 2 h in most reactions. The research managed to show that the hierarchical Zeolites X can be synthesised from fly ash and ion exchange and incipient wetness impregnation are appropriate approaches that can be used to introduce Fe/Mn onto the support materials studied. The catalysts prepared were active to varying degrees in the Friedel-Crafts alkylation of benzene with t-butylchloride, with the exception of the 10%MnM which was found to be inactive. Friedel-Crafts alkylation HBEA MCM-41 Hierarchical zeolite X Coal fly ash Ion exchange Incipient wetness impregnation Benzene t-Butylbenzene t-Butylchloride Catalysis Physico-chemical properties
252	Stereochemical And Synthetic Investigations Venu, Lingampally 11 1900 (has links) (PDF) PART I RESOLUTION AND DESYMMETRISATION Chapter I. ‘A Novel Racemate Resolution’. This describes a novel resolution strategy as applied to racemic α-amino acids in the solid state. The strategy is based on the possibility that second order asymmetric transformations (SOAT) would be more likely in the case of achiral molecules that form chiral crystals (i.e. a non- centrosymmetric space group).1 In such cases, a fundamental requirement of SOAT – that the molecules racemise in solution prior to crystallization – is obviated. Furthermore, the resulting enantiomerically-enriched crystals may be employed to effect a solid-state kinetic resolution of a different racemate (composed of chiral molecules). This strategy was explored with crystalline succinic anhydride (1, Scheme 1), which not only exists in a non-centrosymmetric space group (P212121) but also possesses reactive functionality to effect the resolution step.2 Thus, a finely-ground mixture of 1 (0.5 eqiv.) and a racemic α-amino acid (2, 1.0 eqiv.) was heated at ~ 70 oC over ~ 5 h without solvent. The resulting N-succinoyl derivative (3) was separated from the unreacted 2, which was found to possess significant levels of optical purity (typically ~ 70%). The strategy was applied to several common α-amino acids, the results being summarized in Table 1. These results, apart from establishing ‘proof-of-concept’ and the viability of the resolution strategy, indicate that crystalline succinic anhydride (1) is enantiomerically enriched as originally hypothesized. Chapter II. ‘Enantiospecific Alkylation and Desymmetrisations’. This deals with two enolate-mediated strategies of asymmetric synthesis: one describes approaches towards the alkylation of the stereogenic centre in benzoin without loss of stereogenicity (Section A), and the other the desymmetrisation of a meso tartarate derivative with a chiral base catalyst (Section B). Section A. This describes exploratory studies aimed at achieving the enantiospecific α-alkylation of optically-active benzoin (4, Scheme 2) via its enolate anion 5. The strategy depends on the possibility that 5 would exist in atropisomeric forms, because of steric interactions between the vicinal phenyl groups. (This is indicated in the crystal structure of the analogous enediol carbonate derived from racemic 4.)3 In such a case, remarkably, 5 would be chiral, despite its planar enediolate core! Thus, possibly, the configurational chirality in 4 (by virtue of the C2 stereogenic centre) would be transformed to the helical chirality in 5 (by virtue of the atropisomerism). Furthermore, enantioface-selective alkylation of 5 with achiral alkylating agents would, in principle, be possible. Preliminary studies were then directed towards establishing that controlled deprotonation of optically-active 4, followed by the protonation of the resulting enediolate 5, leads back to the original 4. (+)-Benzoin (4) was prepared via resolution,4 and deprotonated with KH in THF.5 The resulting enediolate (5) was neutralized with acetic acid at -70 oC/THF to recover 4, but with insignificant levels of optical activity (e.e. ~ 12%). The results possibly indicate that ortho-substituted benzoin analogs may show greater retention of chirality upon deprotonation, as the racemisation of the enediolate atropisomers would be suppressed by steric hindrance between the aryl moities. Section B. This describes studies directed towards the catalytic desymmetrisation of meso dimethyl tartarate (6, Scheme 3). The strategy involves the formation of the acetonide derivative 7 and its regioselective α-deprotonation with a chiral base catalyst. The enantioface-selective protonation of the resulting enolate (8) would lead to the chiral analog 9. The overall sequence offers a possible alternative to catalytic deracemisation, which is normally unviable for thermodynamic reasons.6 The above strategy hinges on the meso derivative 7 being thermodynamically less stable than the enantiomeric 9, which would thus be favoured at equilibrium. In fact, this is likely as the eclipsing interactions between the syn ester moieties in 7 would be relieved in 9, in which the ester moieties are anti. However, deprotonation of 7 at the other α position would compete to varying extents, depending on the selectivity induced by the chiral base. At total equilibrium, the sequence would occur via deprotonation at both α sites at equal rates, and no net optical induction would be observed. (This is a thermodynamic requirement via the principle of microscopic reversibility.) Thus, the success of the above strategy depends on stalling the deprotonation-protonation sequence at a quasi-equilibrium stage involving only one of the enantiomers (9).6 The other operational requirement was the compatibility of the pKa’s of 7 and the chiral base employed: too low a pKa of the base would result in inefficient deprotonation and slow overall rate, but a high pKa would generate a large quantity of the enolate 8 at equilibrium. After due consideration, the lithiated chiral fluorene derivative 11 (pKa ~ 22) was chosen as the chiral base catalyst [11 was prepared from fluorene (10) as indicated]. Treating 7 with 0.2 equivalent of 10 in THF at -65 oC over 2 h, led to the formation of a mixture of 7 and 9 in a 45:55 ratio (isolated in 85% total yield). Chromatographic separation of the mixture led to the isolation of pure (+)-9, which was identified spectrally; it was found to possess [α]D24 = +21.84 (c 1.0, CHCl3), corresponding to e.e. = 64%. (This implies the indicated (4S, 5S) configuration for 1, 3-dioxolane 9, as previously reported.)7 These results, despite the moderate e.e. levels obtained, indicate the viability of the above catalytic desymmetrisation strategy, bearing in mind the mechanistic ambiguities mentioned above. PART II SYNTHESES OF ALDEHYDES AND AMINO ACIDS Chapter III. ‘An Asymmetric Synthesis of Aldehydes’. This describes an oxazoline approach to the synthesis of chiral aldehydes. The oxazoline methodology for the synthesis of homochiral α-alkylated carboxylic acids is well known,8 and it was of interest to adapt this to the synthesis of the corresponding aldehydes. Essentially, it was envisaged that the reaction sequence could be diverted towards aldehydes via reduction of the alkylated oxazoline intermediate (Scheme 4). Thus, 2-ethyl-4(S)-methoxymethyl-5(R)-phenyl-1,3-oxazoline (12) was deprotonated with lithium diisopropylamide in THF, and the resulting anion treated with various alkyl halides, in the reported manner.8 The resulting alkylated product (13) was N-methylated with MeI in refluxing MeNO2 over 6 h, to obtain the quaternary salt 14. This was reduced with NaBH4 in MeOH to obtain the expected N- methyl oxazolidine 15, which was hydrolyzed in refluxing aqueous oxalic acid to the free aldehydes 16. These were isolated in moderate yields and e.e. values as shown. Chapter IV. ‘A Darzens Route to α-Amino Acids’. This describes a novel route to α-amino acids, based on the classical Darzens glycidic ester synthesis.9 In this approach (Scheme 5), the glycidic ester (19) was prepared from benzaldehyde (17) and t-butyl bromoformate (18), with KOH in THF as base, and tetrabutylammonium bromide (TBAB) as phase transfer catalyst.9b The oxirane ring in 19 was cleaved via nucleophilic attack with an amine (20), to furnish the two regio-isomeric hydroxy- amino acids (21) and (22). Generally, the β-hydroxy-α-amino acid product (21) predominated over the α-hydroxy-β-amino acid product (22), the two being separated chromatographically. The hydroxyl group in 21 was reductively cleaved via its xanthate derivative (23), by refluxing it in toluene with AIBN (10 mol %) over 4 h. The resulting α-amino acid derivatives (24) were obtained in moderate yields (< 60 %) upon chromatographic purification. (The β-amino analog 22, would lead to the corresponding β-amino acid, but this was not pursued further.) This strategy lends itself to creating structural diversity at the β-centre in the α- amino acid, drawing upon the wide scope of the well-established Darzens condensation reaction. Also, the introduction of the amino moiety is facilitated by the enhanced reactivity at the α-centre of the oxirane ring in the glycidic ester (19), presumably for both electronic and steric reasons. Amino Acids - Synthesis Aldehydes - Synthesis Alpha Amino Acids Novel Racemate Resolution Enantiospecific Alkylation Organic Synthesis Chirality (Chemistry) Chiral Molecules Meso Dimethyl Tartarate Desymmetrisation Stereochemistry Stereochemical Analysis Organic Chemistry
253	Interfacial Studies of Bimetallic Corrosion in Copper/Ruthenium Systems and Silicon Surface Modification with Organic and Organometallic Chemistry Nalla, Praveen Reddy 08 1900 (has links) To form Cu interconnects, dual-damascene techniques like chemical mechanical planarization (CMP) and post-CMP became inevitable for removing the "overburden" Cu and for planarizing the wafer surface. During the CMP processing, Cu interconnects and barrier metal layers experience different electrochemical interactions depending on the slurry composition, pH, and ohmic contact with adjacent metal layers that would set corrosion process. Ruthenium as a replacement of existing diffusion barrier layer will require extensive investigation to eliminate or control the corrosion process during CMP and post CMP. Bimetallic corrosion process was investigated in the ammonium citrate (a complexing agent of Cu in CMP solutions) using micro test patterns and potentiodynamic measurements. The enhanced bimetallic corrosion of copper observed is due to noble behavior of the ruthenium metal. Cu formed Cu(II)-amine and Cu(II)-citrate complexes in alkaline and acidic solutions and a corrosion mechanism has been proposed. The currently used metallization process (PVD, CVD and ALD) require ultra-high vacuum and are expensive. A novel method of Si surface metallization process is discussed that can be achieved at room temperature and does not require ultra-high vacuum. Ruthenation of Si surface through strong Si-Ru covalent bond formation is demonstrated using different ruthenium carbonyl compounds. RBS analysis accounted for monolayer to sub-monolayer coverage of Si surface. Interaction of other metal carbonyl (like Fe, Re, and Rh) is also discussed. The silicon (111) surface modifications with vinyl terminated organic compounds were investigated to form self-assembled monolayers (SAMs) and there after these surfaces were further functionalized. Acrylonitrile and vinylbenzophenone were employed for these studies. Ketone group of vinylbenzophenone anchored to Si surface demonstrated reactivity with reducing and oxidizing agents. Corrosion and anti-corrosives. Copper -- Corrosion. Ruthenium -- Corrosion. Silicon -- Surfaces. Surface chemistry. bimettalic corrosion alkylation copper interfacial CMP metallization ruthenium carbonyl silicon ruthenium surface modification
254	Modifikace organických vysoce výkonných pigmentů pro aplikace v organické elektronice / Modification of Organic High Performance Pigments for Applications in Organic Electronics Cigánek, Martin January 2020 (has links) Dizertační práce pojednává o studiu, syntéze a chemické derivatizaci molekul spadajících do skupiny organických vysoce výkonných pigmentů a jejich potenciálním uplatnění v oblastech organické elektroniky. Teoretická část práce je zaměřena na nejnovější trendy v dané oblasti, a to jak z aplikačního potenciálu konkrétních derivátů, tak z pohledu syntetických možností a jejich strukturálních derivatizací. V experimentální části je pak podrobně popsána příprava pestré škály intermediátů a výsledných produktů, zahrnujících deriváty diketopyrrolopyrrolů (DPP), benzodifuranonu (BDF), epindolidionu (EP), naphthyridinedionu (NTD) a polymeru na bázi thiofenu (PT). Celkově bylo nasyntetizováno 103 molekul, přičemž 49 tvořily výsledné produkty, z nichž 27 bylo zcela nových, dosud nepublikovaných. Hlavním motivem derivatizace molekul pigmentů je zde inkorporace derivátů adamantanu do finálních struktur. V další části práce jsou blíže diskutovány jednotlivé chemické modifikace vedoucí k výsledným produktům. Na sérii N,N'-; N,O'- a O,O'-substituovaných derivátů DPP je popsána komplexní studie vlivu charakteru alkylových řetězců a také pozice jejich navázání v molekule DPP, a to nejen na selektivitu reakce, ale rovněž na optické i termické vlastnosti syntetizovaných produktů.
255	Syntéza rozpustných prírodou inšpirovaných N, N-alkylovaných riboflavínových derivátov, štúdium efektu alkylových skupín / Synthesis of soluble nature-inspired N, N-alkylated riboflavin derivatives, study of the effect of alkyl groups Ivanová, Lucia January 2021 (has links) By flavin's unique structure, nature predestined riboflavin and its derivatives to the participation in redox processes within the bodies of all the living organisms. These biomolecules draw attention with intriguing optical properties and photosensitising abilities. Nature-inspired flavin derivatives share these qualities, and there is also a possibility of fine-tuning for the particular application from the chemical point of view. The thesis deals with two main aims. The first aim handles the synthesis of the trimer heteroaromatic precursor and 1,2-diketone. These key intermediates are essential for the future synthesis of the central aromatic core of the novel NH-free non-fused flavin derivative. The thesis introduces and verifies three approaches, including oxidation of diarylalkynes, nucleophilic addition of a corresponding organolithium compound to a Weinreb amide and benzoin condensation. The second aim covers the properties customization of NH-free fused systems by implementation of linear and bulky alkyl side-chains on the nitrogen atoms N1 and N3 of the alloxazine dilactam. N,N-alkylation introduced an increase in solubility in common organic solvents dichloromethane and chloroform. For the derivatives with 2-(adamantan-1-yl)ethyl substituents, high thermal stability was observed via TGA.
256	Catalytic synthesis of benign bisphenols / Katalytisk syntes av ofarliga bisfenoler Chu, Victoria, Lundqvist, Emma, Hagelin, Hampus January 2022 (has links) This study analyzes the reactivity and selectivity of Friedel-Crafts alkylations using benzylic alcohols and phenols in the presence of a Lewis acid, to synthesize methoxylated bisphenols as a benign alternative to BPA. The degree of methoxylation on the electrophile appears to affect the yield of the reaction while the degree of methoxylation on the nucleophile appears to affect the selectivity. A more methoxylated electrophile results in a lower yield whereas a more methoxylated nucleophile results in a change in ratio between the bisphenol isomers and/or causes other isomers to form. Neither the yield nor the selectivity appears to be affected significantly by the temperature. Bisphenols Vanillyl alcohol Friedel-Crafts alkylation Lewis acid catalysis Sustainability Bisfenoler Vanillylalkohol Friedel-Crafts alkylering Lewissyra-katalys Hållbarhet Organic Chemistry Organisk kemi
257	Pyrolytic Esterification Derivatization Chemistry for the Qualitative Determination of Sulfonate Surfactants and Indirect Detection of Sulfate Surfactants through On-Line Degradation Products for Gas Chromatography-Mass Spectrometry Igwebuike, Alexander 11 July 2023 (has links) No description available. Chemistry gas chromatography GC-MS surfactants pyrolysis on-line derivatization alkyl sulfates sulfonates alkylation degradation products sodium lauryl sulfate lauramine oxide pyrolytic methylation
258	Synthesis of Isatin Derivatives Used for the Inhibition of Pro-Apoptotic Jurkat T Cells Clay, Charles Michael 16 September 2011 (has links) No description available. Chemistry Isatin Oxindole Benzylidene N-alkylation Knoevenagel condensation Wolff-Kishner reduction Apoptosis Caspases Caspase inhibitor small molecule inhibitor Biological Screening DNA laddering Q-VD-OPh
259	A Computational Study of Palladium (II) bis(NHC) Complexes and a Computational/Experimental Study of Gold (I) bisADC Complexes Utilizing Non-Covalent Interaction for Catalysis Tiemann, Matthew Austin 07 1900 (has links) Carbene ligands over these years have become a heavily utilizes and effective ligand for catalysis. The diamino carbene class of ligands are slightly less understood. The effects of bis(carbene) ligand structures of palladium (II) catalysts were investigated using the ETS-NOCV method. The results showed that the amount of π-backbonding played a major role in the rate of the reaction for these NHC complexes. The amount of pi acceptance from the ligand increased in correlation to the length of the methylene linkage in the ligand back bone resulting in increased catalytic activity. The ETS-NOCV method was used to determine the deformation densities that had a contribution to this interaction based on visual interpretation. The percent contribution of pi interactions provided a linear correlation to the natural log of the initial reaction rate, indicating that π-backbonding plays a crucial role in the overall catalytic activity of the palladium complexes. Gold (I) bis acyclic diamino carbenes (ADCs) were investigated for the possibility to be strong hydrogen bond catalysts. The ligand motif of the gold (I) bisADCs were found to be analogous thiourea compounds. Based on NBO analysis there were some improvements to hydrogen bond donicity in comparison to thioureas with the same functional group. The complexes were analyzed for hydrogen bond interactions and polarizations interactions between simple nitroolefin substrate and the catalyst using ETS-NOCV. Results showed that the compounds can form a stable hydrogen bonding system and activate the substrate. This capability is tunable by changing the electron withdrawing properties of the ligase motif, providing the idea that gold (I) bisADCs have potential to be good hydrogen bond catalysts. New thiourea-like gold (I) catalysts utilizing the acyclic diamino carbene motif that were hypothesized were synthesized using a one pot synthesis approach utilizing a metal templated synthesis method. The synthesis, characterization, and application prove these complexes with their cationic centers and bisADCs ligand motif can be utilized for Friedel-Crafts alkylation of indoles, resulting in the production of three new compounds to literature. This research also provided a new application for this specific ligand class and further proved the robustness of ADC ligands. acyclic diamino carbenes N-heterocyclic carbene palladium gold ETS-NOCV NBO BisADC hydrogen bonding donicity Catalysis Thiourea π-backbonding Friedel-Crafts alkylation indole nitroolefin Chemistry, Inorganic
260	Chemical and Biological Explorations of the Family of CC-1065 and the Duocarmycin Natural Products. Ghosh, Nandita, Sheldrake, Helen M., Searcey, M., Pors, Klaus 10 1900 (has links) Yes / CC-1065, the duocarmycins and yatakemycin are members of a family of ultrapotent antitumour antibiotics that have been the subject of extensive investigations due to their mode of action and potential in the design of new anticancer therapeutics. The natural products and their analogues exert their effects through a sequence selective alkylation of duplex DNA in the minor groove at the N3 of adenine. An understanding of their structure and its effect on biological activity has been derived through chemical synthesis and has also generated new potential lead compounds. These studies form the first section of the review. The desire to progress these compounds to clinic has also led to studies of bioconjugation and prodrug formation and this is discussed in the second section of the review. The combination of synthesis with key biological experiments is a powerful tool to define the requirements for the development of natural products as potential therapeutic agents. The studies described herein form an excellent paradigm for the study and development of other natural products. / EPSRC, Yorkshire Cancer Research, Big C Cancer Research, UCB Pharma Duocarmycin Anti-tumour antibiotics CC-1065 Aadozelesin CBI CPI DNA minor groove binders (MGBs) Adenine N3 alkylation Prodrugs Anti-cancer therapeutics Natural products

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