Global ETD Search

21	Mechanistic Study on Photogeneration of Nitrogen Based Reactive Intermediates via Transient Spectroscopy & Infrared Matrix Isolation Study on Organometallic Reactions with Ozone Forming Metal Oxides Sriyarathne, H. Dushanee M. 30 October 2017 (has links) No description available. Organic Chemistry Nitrenes Laser flash photolysis matrix isolation metal oxide EPR azides
22	Applications Focused Synthetic Modification on Photoremovable Protecting Groups (PRPG) & Photochemical Analysis on Organic Azides and Isoxazoles Thenna Hewa, Kosala R. S. January 2017 (has links) No description available. Organic Chemistry Laser Flash Photolysis ESR Photochemistry Nitrenes Photoremovable protecting groups Matrix isolation
23	From high spin systems to photorelease: Reactivity of twisted-triplet alkene 1,2 biradical Rajam, Sridhar 06 August 2010 (has links) No description available. Organic Chemistry triplet alkene biradical triplet vinyl nitrene photorelease azirine laser flash photolysis photoprotecting group
24	Understanding Hydrogen Bonding in Photoenolization Scott, Tianeka S. 18 October 2013 (has links) No description available. Chemistry photoenolization hydrogen bonding in photoenolization photoremovable protecting groups laser flash photolysis phosphorescence cis-trans isomerization
25	Excited state intramolecular proton transfer (ESIPT) and trans-cis isomerization on the triplet excited states Weragoda, Geethika K. 16 October 2015 (has links) No description available. Organic Chemistry Laser Flash Photolysis Molecular Modeling ESIPT Trans-cis isomerization biradicals triplet excited states
26	Generation and Time Resolved Spectroscopic Studies of Methylphenylgermylene and its Dimer in Solution Dumbrava, Ileana Daniela 01 1900 (has links) <p> Under 248 nm laser flash photolysis, the photodecomposition of 1,3,4-trimethyl-1-phenyl-1-germacyclopent-3-ene (28) in dry, deoxygenated hexane solution at 23 °C leads to the prompt formation of two transient species: phenylmethylgermylene (29) and its Ge=Ge doubly bonded dimer, 1,2-dimethyl-1 ,2-diphenyldigemene (30). The formation of 29 proceeds in high chemical yield as shown by the results of steady state trapping experiments with methanol and isoprene. The transient assigned to 29 exhibits λmax = 490 nm and decays with second-order kinetics (τ ~ 2 μs). The second transient, which is formed from the latter, is assigned to digermene 30 and exhibits λmax = 420 nm and a lifetime, τ ~ 8 μs. The assignments are based on comparisons to the spectra of other simple germylenes, such as dimethyl-, diphenyl and dimesitylgermylene as well as on the pattern of reactivity with trapping reagents in solution at room temperature.</p> <p> Reactions studied include N-H, O-H and Sn-H insertion reactions, the [1+2] addition to isoprene and t-butylacetylene, and halogen atom abstraction from carbon tetrachloride.</p> <p> Absolute rate constants for quenching of 29 with the above mentioned scavengers were obtained by direct measurement of the germylene decay kinetics, over the concentration range where the formation of the digermene was more than 70% quenched. This ensures that the decay of 29 was dominated by the reaction with the trapping reagent.</p> <p> Absolute rate constants for reaction of the same reagents with 30 have also been determined for most of the scavengers studied. However, the digermene was found to be considerably less reactive than phenylmethylgermylene in all cases.</p> <p> The trends in spectroscopic properties and reactivity of simple germylenes in solution are discussed.</p> / Thesis / Master of Science (MSc)
27	Experimental Studies of Thermal Diffusivities concerning some Industrially Important Systems Abdul Abas, Riad January 2006 (has links) The main objective of this industrially important work was to gain an increasing understanding of the properties of some industrially important materials such as CMSX-4 nickel base super alloy, 90Ti.6Al.4V alloy, 25Cr:6Ni stainless steel, 0.7% carbon steel, AISI 304 stainless steel-alumina composites, mould powder used in continuous casting of steel as well as coke used in blast furnace with special reference to the thermal diffusivities. The measurements were carried out in a wide temperature range covering solid, liquid, glassy and crystalline states. For CMSX-4 alloy, the thermal conductivities were calculated from the experimental thermal diffusivities. Both the diffusivities and conductivities were found to increase with increasing temperature. Microscopic analysis showed the presence of intermetallic phases γ´ such as Ni3Al below 1253 K. In this region, the mean free path of the electrons and phonons is likely to be limited by scattering against lattice defects. Between 1253 K and solidus temperature, these phases dissolved in the alloy adding to the impurities in the matrix, which, in turn, caused a decrease in the thermal diffusivity. This effect was confirmed by annealing the samples at 1573 K. The thermal diffusivities of the annealed samples measured at 1277, 1403 and 1531 K were found to be lower than the thermal diffusivities of non-annealed samples and the values did not show any noticeable change with time. It could be related to the attainment of equilibrium with the completion of the dissolution of γ´ phase during the annealing process. Liquid CMSX-4 does not show any change of thermal diffusivity with temperature. It may be attributed to the decrease of the mean free path being shorter than characteristic distance between two neighbouring atoms. Same tendency could be observed in the case of 90Ti.6Al.4V alloy. Since the thermal diffusivity increases with increasing temperature below 1225 K and shows slight decrease or constancy at higher temperature. For 25Cr:6Ni stainless steel, the thermal diffusivity is nearly constant up to about 700 K. Beyond that, there is an increase with temperature both during heating as well as cooling cycle. On the other hand, the slope of the curve increases above 950 K, which can be due to the increase of bcc phase in the structure. 0.7% carbon steel shows a decrease in the thermal diffusivity at temperature below Curie point, where the structure contains bcc+ fcc phases. Above this point the thermal diffusivity increases, where the structure contains only fcc phase. The experimental thermal conductivity values of these alloys show good agreement with the calculated values using Mills model. Thermal diffusivity measurements as a function of temperature of sintered AISI 304 stainless steel-alumina composites having various composition, viz, 0.001, 0.01, 0.1, 1, 2, 3, 5, 7, 8 and 10 wt% Al2O3 were carried out in the present work. The thermal diffusivity as well as the thermal conductivity were found to increase with temperature for all composite specimens. The thermal diffusivity/conductivity decreases with increasing weight fraction of alumina in the composites. The experimental results are in good agreement with simple rule of mixture, Eucken equation and developed Ohm´s law model at weight fraction of alumina below 5 wt%. Beyond this, the thermal diffusivity/ conductivity exhibits a high discrepancy probably due to the agglomeration of alumina particles during cold pressing and sintering. On the other hand, thermal diffusivities of industrial mould flux having glassy and crystalline states decrease with increasing temperature at lower temperature and are constant at higher temperature except for one glassy sample. The thermal diffusivity is increased with increasing crystallisation degree of mould flux, which is expected from theoretical considerations. Analogously, the thermal diffusivity measurements of mould flux do not show any significant change with temperature in liquid state. It is likely to be due to the silicate network being largely broken down. In the case of coke, the sample taken from deeper level of the pilot blast furnace is found to have larger thermal diffusivity. This can be correlated to the average crystallite size along the structural c-axis, Lc, which is indicative of the higher degree of graphitisation. This was also confirmed by XRD measurements of the different coke samples. The degree of graphitisation was found to increase with increasing temperature. Further, XRD and heat capacity measurements of coke samples taken from different levels in the shaft of the pilot blast furnace show that the graphitisation of coke was instantaneous between 973 and 1473 K. / QC 20100629 laser flash thermal diffusivity heat conduction phonon electron contribution crystallisation degree graphitisation Metallurgical process engineering Metallurgisk processteknik
28	Characterization of Thermal Properties of Depleted Uranium Metal Microspheres Humrickhouse, Carissa Joy 2012 May 1900 (has links) Nuclear fuel comes in many forms; oxide fuel is the most commonly used in current reactor systems while metal fuel is a promising fuel type for future reactors due to neutronic performance and increased thermal conductivity. As a key heat transfer parameter, thermal conductivity describes the heat transport properties of a material based upon the density, specific heat, and thermal diffusivity. A material’s ability to transport thermal energy through its structure is a measurable property known as thermal diffusivity; the units for thermal diffusivity are given in area per unit time (e.g., m2/s). Current measurement methods for thermal diffusivity include LASER (or light) Flash Analysis and the hot-wire method. This study examines an approach that combines these previous two methods to characterize the diffusivity of a packed bed of microspheres of depleted uranium (DU) metal, which have a nominal diameter of 250 micrometers. The new apparatus is designated as the Crucible Heater Test Assembly (CHTA), and it induces a radial transient across a packed sample of microspheres then monitors the temperature profile using an array of thermocouples located at different distances from the source of the thermal transient. From the thermocouple data and an accurate time log, the thermal diffusivity of the sample may be calculated. Results indicate that DU microspheres have very low thermal conductivity, relative to solid uranium metal, and rapidly form an oxidation layer. At 500°C, the thermal conductivity of the DU microspheres was 0.431 ± 13% W/m-K compared to approximately 32 W/m-K for solid uranium metal. Characterization of the developed apparatus revealed a method that may be useful for measuring the thermal diffusivity of powders and liquids. Nuclear fuel uranium metal microspheres sphere-pac Travelling Wave Reactor Laser Flash Analysis Thermal diffusivity Thermal conductivity
29	Laser flash photolysis studies of some gas phase reactions of atmospheric interest Zhao, Zhijun 20 August 2009 (has links) Radical reactions play central roles in regulating regional air quality and global climate. Some potentially important gas phase radical reactions are being investigated in this research project, including Cl reactions with acetone, butanone, 3-pentanone, pyridine, and dimethyl selenide (DMSe), HO2 complex formation and dissociation with formic and acetic acids, and reactive and non-reactive quenching of O(1D) by the potent greenhouse gases SO2F2, NF3, and SF5CF3. The involved radicals are generated by laser flash photolysis (LFP). Temporal profiles of either the radical reactant or a product are monitored in "real time" using atomic resonance fluorescence spectroscopy (RF), time-resolved UV-visible absorption spectroscopy (TRUVVAS), or tunable diode laser absorption spectroscopy (TDLAS), allowing kinetic and mechanistic information of these reactions to be obtained. These studies provide new knowledge of the investigated radical reactions and facilitate a better understanding of their significance in atmospheric chemistry. Kinetics Laser flash photolysis Gas phase radical reaction Atmospheric chemistry Dynamics Thermochemistry Free radicals (Chemistry) Free radical reactions
30	Kinetics of proton and electron transfer in heme-copper oxidases Lachmann, Peter January 2015 (has links) Heme-copper oxidases are transmembrane proteins that are found in aerobic and anaerobic respiratory chains. During aerobic respiration, these enzymes reduce dioxygen to water. The energy released in the reaction is used to transport protons across a biological membrane. Stored as proton electrochemical gradient, the energy can be used to regenerate ATP. It is known that aa3 oxidases, which are the most common oxidases, transport pumped protons and protons used for the catalytic reaction using two proton pathways. However, the molecular mechanism of pumping is still being debated. When oxygen is available in very small quantities, oxygen reductases with high affinity for oxygen are expressed by organisms like Thermus thermophilus. The proton pumping mechanism in the ba3 oxidase is slightly different from that of aa3 oxidases as this enzyme only uses a single proton uptake pathway. Here we analyzed the reaction mechanism of ba3 oxidase and found evidence that the first proton taken up by the four-electron reduced ba3 oxidase is transferred to a site distant from the catalytic site, the pump site, and that only every second proton taken up from solution is pumped. Data obtained from studies using site-directed mutagenesis and flow-flash spectroscopy suggest a probable location of the pump site. Under anaerobic conditions, some organisms are able to generate a proton- motive force using nitrate and nitrite as electron acceptors. In this process, the cytotoxic reaction intermediate nitric oxide is produced. Nitric oxide reductase (NOR), a deviant heme-copper oxidase that reduces NO to the rather harmless N2O, does not pump any protons. The catalytic mechanism of nitric oxide reduction by NOR is very poorly understood. Here we demonstrate that substrate inhibition, which occurs in NOR from Paracoccus denitrificans above 5 μM NO, can already be observed before the electrons from the low-spin hemes re-distribute to the active site. Furthermore, we found that a single specific proton pathway is used for proton-transfer leading from the periplasm to the active site. Heme-copper oxidase electron transfer proton transfer nitric oxide reductase ba3 oxidase flow-flash laser-flash photolysis

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