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  • About
  • The Global ETD Search service is a free service for researchers to find electronic theses and dissertations. This service is provided by the Networked Digital Library of Theses and Dissertations.
    Our metadata is collected from universities around the world. If you manage a university/consortium/country archive and want to be added, details can be found on the NDLTD website.
411

New catalytic methods and strategies for chemical synthesis

Collins, Beatrice Samora LeFanu January 2014 (has links)
No description available.
412

Insight into Catalytic Intermediates Relevant for Water Splitting

Mirmohades, Mohammad January 2016 (has links)
Catalysis is an important part of chemistry. This is also reflected in the chemical industry where 85-90 % of all products are made catalytically. Also nature employs catalysts, i.e. enzymes, for its reactions. To improve on the already existing catalysts one can learn a lot from nature which often uses earth-abundant elements in the enzymes which have also been optimized and finely tuned for billions of years. To gain a deeper understanding of both enzymatic and artificial catalysis one needs to investigate the mechanism of the catalytic process. But for very efficient catalysts with turnover frequencies of several thousand per second this is not easy, since an investigation of the mechanism involves resolving intermediates in the catalytic cycle. The intermediates in these instances are short-lived corresponding to their turnover frequencies. A maximum turnover frequency of 1,000 s-1 e.g. means that each catalyst goes through the whole catalytic cycle in 1 ms. Therefore time-resolved techniques are necessary that have a faster detection speed than the turnover frequency of the catalyst. Flash photolysis is a spectroscopic technique with an instrument response function down to 10 ns.  Coupling this technique with mid-infrared probing yields an excellent detection system for probing different redox and protonation states of carbonyl metal complexes. Since many catalysts as well as natural enzymes involved in water splitting are metal carbonyl complexes this is an ideal technique to monitor the intermediates of these catalysts. Chapter 3 covers the investigation of [FeFe] hydrogenases, enzymes that catalyze the reduction of protons to hydrogen in nature. Chapter 4 investigates the intermediates of biomimetic complexes, resembling the active site of natural [FeFe] hydrogenases. Chapter 5 covers the insights gained from investigating other catalysts which are also involved in water splitting and artificial photosynthesis.
413

Dendrimer encapsulated gold nanoparticles as catalyst precursors for oxidative transformations of unsaturated hydrocarbons

Slazus, Ene 04 1900 (has links)
Thesis (MSc)--Stellenbosch University, 2015. / ENGLISH ABSTRACT: In an attempt to produce active catalysts for the oxidation of alkanes, hydrophobic dendritic micelle encapsulated gold nanoparticles were prepared. Dendrimers are well suited as templates for the encapsulation of metal nanoparticles as they can control the size and distribution of the particles. Using hydrophobic dendritic micelles it was found that the mode of encapsulation is driven by the solubility of the metal ions and not complexation of these ions, as is the case with conventional dendrimers. The dendritic micelles also provide the possibility of producing the dendrimer encapsulated nanoparticles in organic solvents, simplifying the encapsulation process as well as their subsequent application in catalysis. With this in mind, two types of dendritic micelles were synthesized. The first type, based on commercially available DAB PPI dendrimers, contained a diaminobutane core while the second type, containing a PAMAM interior architecture, has a cyclam core. Three generations of DAB PPI dendrimers were modified on their periphery with palmitoyl chloride to give the alkyl chain terminated hydrophobic DAB PPI dendritic micelles. The PAMAM-type cyclam-cored dendrimers were synthesized from the core outwards to produce two generations of cyclam-cored amine-terminated dendrimers. Their periphery could then be modified with palmitoyl chloride to produce two generations of alkyl chain terminated hydrophobic cyclam-cored dendritic micelles. The dendritic micelles were used as templates for the encapsulation of gold nanoparticles and these were fully characterized by UV/Vis spectroscopy and HR-TEM. Au13, Au31 and Au55 nanoparticles were encapsulated in each dendrimer template by varying the dendrimer to gold ratio. HR-TEM results indicate relatively uniform particles with an average particle size falling in the range of 4-6 nm. Finally, the dendrimer encapsulated nanoparticles (DENs) were applied as catalysts in the oxidation of n-octane. To the best of our knowledge DENs have not been applied as catalysts in the oxidation of linear alkanes. High substrate conversions, falling in the range of 70-90%, were achieved with all of the catalysts. Longer reaction times and lower catalyst loadings resulted in higher conversions with the optimum condition determined to be 0.1 mol% catalyst and 72 hours reaction time. It was also concluded that the nanoparticle size has a bigger influence on the conversion than the nature and generation of the dendrimer template. Overall the gold DENs show great potential as oxidation catalysts. / AFRIKAANSE OPSOMMING: In die poging om aktiewe katalisators vir die oksidasie van alkane te produseer is goud nanopartikels in die binne ruimtes van hidrofobiese dendritiese miselle ge-enkapsuleer. Dendrimere is geskikte template vir die enkapsulering van metaal nanopartikels a.g.v die feit dat dit die grootte en distribusie van die partikels kan beheer. Deur gebruik te maak van hidrofobiese dendritiese miselle verander die wyse van enkapsulering van kompleksering van metaal ione (die geval in konvensionele dendrimere) na oplossing gedrewe enkapsulering. Dendritiese miselle bied ook die moontlikheid om die dendrimer-ge-enkapsuleerde nanopartikels in organiese oplosmiddels voor te berei wat die enkapsulerings proses sowel as die toepassing in katalise vergemaklik. Met hierdie in gedagte is twee verskillende tipe dendritiese miselle gesintetiseer. Die eerste tipe, gebasseer op kommersieel beskikbare DAB PPI dendrimere, bevat ‘n diaminobutaan kern, terwyl die tweede tipe, bestaande uit ‘n PAMAM binne-struktuur, ‘n siklaam kern bevat. Drie generasies van DAB PPI dendrimere was gemodifieer op die periferie met palmitoïelchloried om alkiel ketting getermineerde hidrofobiese DAB PPI dendritiese miselle te produseer. Die PAMAM siklaam kern bevattende dendrimere was gesintetiseer van die kern uitwaarts om twee generasies amien getermineerde dendrimere te produseer. Dit was toe moontlik om die periferie met palmitoïelchloried te modifieer om twee generasies van alkiel getermineerde siklaam kern bevattende hidrofobiese dendritiese miselle op te lewer. Die dendritiese miselle was gebruik as template vir die enkapsulasie van goud nanopartikels en volledig gekarakteriseer deur UV/Vis spektroskopie en HR-TEM. Au13, Au31 and Au55 nanopartikels was ge-enkapsuleer in elk van die dendrimeer template deur die verhouding van dendrimeer tot goud te wissel. HR-TEM resultate dui aan dat die partikels goed versprei is met ‘n gemiddelde partikel grootte tussen 4-6 nm. Die dendrimeer ge-enkapsuleerde goud nanopartikels (DENs) was as katalisators in die oksidasie van n-oktaan toegepas. Volgens ons kennis is DENs nog nie toegepas as katalisators in die oksidasie van lineêre alkane nie. Hoë substraat omskakelings, tussen 70 en 90%, was deur al die katalisators bereik. ‘n Langer reaksie tyd en laer katalisator konsentrasies het hoër omsettings tot gevolg gehad. Die optimale kondisies sluit ‘n 0.1 mol% katalisator konsentrasie en 72 uur reaksie tyd in. Die gevolgtrekking was gemaak dat die nanopartikel grootte ‘n groter invloed op die substraat omsetting het as die aard en generasie van die dendrimeer templaat. Alles in ag geneem, wys die goud DENs groot potensiaal as oksidasie katalisators.
414

Catalytic and asymmetric organic oxidations by chiral oxoruthenium(IV)and cis- dioxoruthenium(VI) complexes with nitrogen donor ligands

馮偉康, Fung, Wai-hong. January 1998 (has links)
published_or_final_version / Chemistry / Doctoral / Doctor of Philosophy
415

Electrophilic and acid catalysis in nucleophilic aromatic substitutions

林啓標, Lam, Kai-biu. January 1967 (has links)
published_or_final_version / Chemistry / Master / Master of Science
416

The catalytic activity of copper chlorides: dehydrochlorination of tert-butyl chloride.

Leung, Ka-sing, 梁嘉聲 January 1975 (has links)
published_or_final_version / Chemistry / Master / Master of Philosophy
417

The chemistry of mixed-metal clusters of osmium and rhodium

Lau, Po-kwan, Jasmine., 劉寶君. January 2005 (has links)
published_or_final_version / abstract / Chemistry / Doctoral / Doctor of Philosophy
418

Carbenoid transfer reactions catalyzed by arene ruthenium complexes and polymer supported ruthenium catalysts

Choi, Kwok-wai, Matthew., 蔡國偉. January 2008 (has links)
published_or_final_version / Chemistry / Doctoral / Doctor of Philosophy
419

Ordering, diffusion and laser-induced disordering on Rh{111} and Rh{332} surfaces

Hoogers, Gregor January 1994 (has links)
No description available.
420

New electron-poor phosphine ligands for hydroformylation and hydrocyanation catalysis

Mason, Katie Louise January 1997 (has links)
No description available.

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