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41	Kinetics and mechanisms of hydrogen isotope exchange over solid storage media Owens, Simon January 2015 (has links) Hydrogen isotope separation systems using palladium (Pd) are currently being designed for both reactor designs with the aim of separating and purifying the reactor exhaust products which contain valuable unspent hydrogen isotopes. Hydrogen isotope exchange in Pd offers an efficient, ambient condition process that can produce pure isotopic species in a process far simpler and less costly than the current state of the art cryogenic distillation processes. The method is applicable whether separating hydrogen (protium), deuterium or tritium and any combination of these. If practical fusion devices are ever to be realised it is essential to produce an economical and efficient fuel cycle capable of separating and purifying hydrogen isotopes. Hydrogen isotope exchange in Pd is also of interest to the waste separation and purification industries, in particular those using hydrogen separation membranes which used Pd and Pd-alloy membranes. Understanding hydrogen isotope exchange, with particular regard to the formation of the intermediate (and often unwanted) hydrogen deuteride (HD), will aid significantly in future designs of hydrogen isotope separation systems. Novel hydrogen isotope exchange experiments involving hydrogen and deuterium at a number of temperatures (208 K, 293 K and 373 K) and pressures (1.3 bar – 8 bar) not yet explored are presented in this thesis. The experiments were carried out on a unique piece of laboratory apparatus provided to and further developed at the University of Bath. Alongside experimentation, a novel comprehensive multidimensional multi-physics model has been created to analyse the experimental data obtained using the new apparatus and elucidate the kinetics and mechanisms of the reactions occurring between hydrogen isotopic species and Pd during hydrogen isotope exchange based on Langmuir-Hinshelwood surface reaction mechanism. The surface reaction rates, kinetic rate constants and heat effects have been examined in detail, and in tandem, for the first time. 546
42	Caracterização de depósitos de areia da Bacia Sedimentar de Taubaté para a fabricação de vidros. / Characterization of the Taubaté Sedimentary Basin viewing to enchance its use for glass manufacturing. Cruz, Tomaz Teodoro da 06 April 2011 (has links) Este trabalho teve como foco a caracterização das areias da Bacia Sedimentar de Taubaté visando avaliar o seu aproveitamento na fabricação de vidros. Os trabalhos de campo consistiram na amostragem do produto de sete minas em operação, na sua caracterização prévia e na escolha de uma amostra cujas características granulométricas se aproximassem mais as especificações para a fabricação do vidro plano. Identificada uma amostra como potencialmente adequada, partiu-se para sua caracterização detalhada; foram realizados ensaios de atrições, separações magnéticas e caracterização do produto não magnético e dos minerais pesados presentes. A amostra estudada apresentou uma distribuição granulométrica compatível com as areias quartzosas hoje utilizadas na fabricação de vidros. Sua composição mineralógica confirmou a presença de feldspato, que contribuirá na fabricação do vidro com a adição de alumina e de álcalis. Há presença de minerais pesados em proporções reduzidas e essencialmente em granulação inferior a 0,30 mm. Os estudos realizados mostraram a viabilidade técnica desta matéria-prima para a fabricação de vidros planos de cor verde, bronze e fumê, porém impróprios para o vidro incolor em razão de teores de Fe2O3 remanescentes, associados essencialmente a alteração de feldspatos e recobrimento superficial. Como sugestão para complementação deste trabalho, recomenda-se uma ampla campanha de sondagem para analisar as amostras in natura, a serem utilizadas na caracterização tecnológica, cubagem das jazidas, ensaios de beneficiamento para subsidiar futuros estudos de viabilidade do empreendimento de mineração para produção de areia industrial para a fabricação de vidros. / The focus was the characterization of the Taubaté Sedimentary Basin viewing to enhance its use for glass manufacturing. The field work consisted in the sampling of the product from seven operating sand mines, in their previous characterization and in the choice of a sample, the grain size distribution of which were closer to those specified for manufacturing flat glass. After identifying a potentially adequate sample, its thorough characterization was conducted; attrition essays, magnetic separation were conducted as well as the characterization of the non-magnetic product and of the heavy minerals present. The sample studied presented a grain distribution compatible to those of quartz sands currently used for glass manufacturing. Its mineralogical composition confirmed the presence of feldspar, which will contribute to glass manufacturing with the addition of alumina and of alkalis. Heavy minerals are present in reduced proportions and essentially in grain size smaller than 0.30 mm. The studies conducted showed the technical viability of this input for manufacturing green, bronze and smoked flat glass, yet it is inadequate for manufacturing colorless grass due to the remaining Fe2O3 contents, essentially associated to the alteration infeldspars and superficial cover. As a suggestion to complement this work, an extensive exploration campaign is recommended to analyze samples in natura, to be used in technological characterization, deposit cubage, improvement essays to subsidize future viability studies in the mining enterprise to produce industrial sand for glass manufacturing. Areia para vidro Caracterização tecnológica Mineral separations Sand for glass applications Separações minerais Technological characterization
43	Analyzing Cellular Properties with Dielectrophoresis January 2019 (has links) abstract: Dielectrophoresis (DEP) is a technique that influences the motion of polarizable particles in an electric field gradient. DEP can be combined with other effects that influence the motion of a particle in a microchannel, such as electrophoresis and electroosmosis. Together, these three can be used to probe properties of an analyte, including charge, conductivity, and zeta potential. DEP shows promise as a high-resolution differentiation and separation method, with the ability to distinguish between subtly-different populations. This, combined with the fast (on the order of minutes) analysis times offered by the technique, lend it many of the features necessary to be used in rapid diagnostics and point-of-care devices. Here, a mathematical model of dielectrophoretic data is presented to connect analyte properties with data features, including the intercept and slope, enabling DEP to be used in applications which require this information. The promise of DEP to distinguish between analytes with small differences is illustrated with antibiotic resistant bacteria. The DEP system is shown to differentiate between methicillin-resistant and susceptible Staphylococcus aureus. This differentiation was achieved both label free and with bacteria that had been fluorescently-labeled. Klebsiella pneumoniae carbapenemase-positive and negative Klebsiella pneumoniae were also distinguished, demonstrating the differentiation for a different mechanism of antibiotic resistance. Differences in dielectrophoretic behavior as displayed by S. aureus and K. pneumoniae were also shown by Staphylococcus epidermidis. These differences were exploited for a separation in space of gentamicin-resistant and -susceptible S. epidermidis. Besides establishing the ability of DEP to distinguish between populations with small biophysical differences, these studies illustrate the possibility for the use of DEP in applications such as rapid diagnostics. / Dissertation/Thesis / Doctoral Dissertation Chemistry 2019 Analytical chemistry Chemistry Biophysics antimicrobial resistance bacterial analysis diagnostics dielectrophoresis microfluidics separations
44	Synthesis, characterization and capillary electrophoretic use of new, single-isomer hexasulfated alpha-cyclodextrins Li, Shulan 29 August 2005 (has links) The first three, pure, single-isomer, 6-O-sulfo a-cyclodextrins, the sodium salts of hexakis(6-O-sulfo)-a-CD (HxS), hexakis(2,3-di-O-methyl-6-O-sulfo)-a-cyclodextrin (HxDMS) and hexakis(2,3-di-O-acetyl-6-O-sulfo)-a-cyclodextrin (HxDAS) have been synthesized, analytically characterized and utilized as chiral resolving agents in capillary electrophoresis. The purity of each synthetic intermediate and of the final product was determined by HPLC-ELSD and indirect UV-detection capillary electrophoresis. The structural identity of each intermediate and final product was verified by 1D and 2D NMR, and mass spectrometry.HxS, HxDMS and HxDAS have been used to separate a series of neutral, basic, ampholytic and acidic enantiomers in pH 2.5 and pH 9.5 aqueous and acidic methanol background electrolytes using capillary electrophoresis. Rapid separations with satisfactory peak resolution values were obtained for most of the analytes, indicating that HxS, HxDAS and HxDMS can serve as chiral resolving agent for a wide range of analytes. The observed separation patterns follow the predictions of the CHArged Resolving agent Migration (CHARM) model. The separation patterns observed with HxS, HxDAS and HxDMS as chiral resolving agent were compared with those of (1) b-cyclodextrin analogues, such as, heptakis(6-O-sulfo)-b-cyclodextrin (HS), heptakis(2,3-di-O-acetyl-6-O-sulfo)-b-cyclodextrin (HDAS) and heptakis(2,3-di-O-methyl-6-O-sulfo)-b-cyclodextrin (HDMS); (2) g-cyclodextrin analogues, such as, octakis(6-O-sulfo)-g-cyclodextrin (OS), octakis(2,3-di-O-acetyl-6-Osulfo)- g-cyclodextrin (ODAS) and octakis(2,3-di-O-methyl-6-O-sulfo)-g-cyclodextrin (ODMS). The effects of the structure of the analytes, and those of the pH and the solvent of the background electrolyte were also studied. capillary electrophoresis Enantiomer separations Hexasulfated alpha-cyclodextrins
45	The synthesis, characterization and application of iron oxide nanocrystals in magnetic separations for arsenic and uranium removal January 2012 (has links) Arsenic and uranium in the environment are hazardous to human health and require better methods for detection and remediation. Nanocrystalline iron oxides offer a number of advantages as sorbents for water purification and environmental remediation. First, highly uniform and crystalline iron oxide nanocrystals (nMAG) were prepared using thermal decomposition of iron salts in organic solutions; for the applications of interest in this thesis, a central challenge was the adaptation of these conventional synthetic methods to the needs of low infrastructure and economically disadvantaged settings. We show here that it is possible to form highly uniform and magnetically responsive nanomaterials using starting reagents and equipment that are readily available and economical. The products of this approach, termed the 'Kitchen Synthesis', are of comparable quality and effectiveness to laboratory materials. The narrow size distributions of the iron oxides produced in the laboratory synthesis made it possible to study the size-dependence of the magnetic separation efficiency of nanocrystals; generally as the diameter of particles increased they could be removed under lower applied magnetic fields. In this work we take advantage of this size-dependence to use magnetic separation as a tool to separate broadly distributed populations of magnetic materials. Such work makes it possible to use these materials in multiplexed separation and sensing schemes. With the synthesis and magnetic separation studies of these materials completed, it was possible to optimize their applications in water purification and environmental remediation. These materials removed both uranium and arsenic from contaminated samples, and had remarkably high sorption capacities -- up to 12 wt% for arsenic and 30 wt% for uranium. The contaminated nMAG is removed from the drinking water by either retention in a sand column, filter, or by magnetic separation. The uranium adsorption process was also utilized for the enhanced detection of uranium in environmental matrices. By relying on α-particle detection in well-formed and dense nMAG films, it was possible to improve soil detection of uranium by more than ten-thousand-fold. Central for this work was a detailed understanding of the chemistry at the iron oxide interface, and the role of the organic coatings in mediating the sorption process. Applied sciences Pure sciences Iron oxide Nanocrystals Magnetic separations Arsenic Uranium Inorganic chemistry Nanoscience Environmental engineering
46	Design of Novel Molecular Micelles for Capillary Electrophoresis Rizvi, Syed Asad Ali 29 August 2006 (has links) The research presented in this dissertation involves the synthesis, characterization, and application of novel anionic and cationic chiral molecular micelles in capillary electrophoresis (CE) for the separation of diverse chiral compounds. Chapter 1 presents brief overview of the surfactants, micelle polymer, CE and micellar electrokinetic chromatography (MEKC). Chapter 2 describes the simultaneous enantioseparation of eight single chiral center â-blockers using two novel leucine and isoleucine based polymeric surfactants. The simultaneous enantioseparation of multichiral center bearing â-blockers, nadolol and labetalol is described in chapter 3. A synergistic approach, using a combination of polysodium N-undecenoxycarbonyl-L-isoleucinate (poly-L-SUCIL) and sulfated â-CD showed dramatic enantioseparation of four stereoisomers of nadolol. On the other hand for labetalol, enantiomeric separation remains unaffected using the dual chiral selector system. Chapter 4 deals with the enantiomeric separation of the binaphthyl derivatives that was found to be influenced by pH, type and concentration of the background electrolyte as well as concentration of the polymeric surfactant. In chapter 5, characterization of five alkenoxy leucine-based surfactants with variations in chain length (C8-C11), polymerization concentration and degree of polymerization showed significant effects on the chiral resolution and efficiency of hydrophobic â-blockers. The synthesis and characterization of two positively charged amino acid derived chiral ionic liquids (ILs) and their corresponding polymers is presented in chapter 6. Chiral separation of two acidic analyte (difficult to resolve with anionic micelles) can be achieved with both monomers and polymers of ILs. In chapter 7, the synthesis and detailed characterization of three pH independent amino acids derived (L-leucinol, L-isoleucinol and L-valinol) sulfated chiral polymeric surfactants is presented. These chiral sulfated surfactants are thoroughly characterized and the morphological behavior of polymeric sulfated surfactants is revealed using cryogenic high-resolution electron microscopy. The work clearly demonstrates for the first time the superiority of chiral separation in MEKC coupled to mass spectrometry at low pH. Finally, in chapter 8, six amino acid derived chiral surfactants with carboxylate and sulfate head groups were compared for enantioseparation of broad range of structurally diverse racemic compounds at neutral and basic pH conditions. Hydrophobic Chain Length Polar head Group Molecular Micelles Chiral Separations Chemistry
47	Supported Lipid Bilayer Electrophoresis: A New Paradigm in Membrane Biophysics and Separations Pace, Hudson 1982- 14 March 2013 (has links) The motivation of this work was to produce novel analytical techniques capable of probing the physical properties of the cell surface. Many researchers have used supported lipid bilayers (SLBs) as models to study the structure and function of the cell membrane. The complexity of these models is consistently increasing in order to better understand the myriad of physiologically relevant processes regulated by this surface. In order to aid researchers in studying such phenomenon, the following contributions were made. To manipulate components within the cell membrane, an electrophoretic flow cell was designed which can be used as a probe to study the effect of electrical fields on charged membrane components and for the separation of these components. This devise allows for the strict control of pH and ionic strength as species are observed in real-time using fluorescence microscopy. Additionally, advancements have been made to the production of patterned heterogeneous SLBs for use in separations and to probe the interactions of membrane components. The methodology to couple SLB separations and matrix-assisted laser desorption ionization mass spectrometry (MALDI-MS) imaging was devised. This technology allows for the label-free mapping of the SLB surface post electrophoresis in order to observe naturally occurring species unperturbed by the addition of extrinsic tags. The final contribution, and perhaps the greatest, is the development of a procedure to create highly mobile SLBs from native membranes. These surfaces have vast potential in that they are no longer simple models of the cell surface, they are in fact the actual cell surface made planar. This advancement will be of great use to biophysicists and biochemists interested in using surface specific analytical methods to better understand physiological processes. These highly mobile native membrane surfaces have been coupled with the SLB electrophoresis technology to separate discrete bands of lipids and proteins, a proof of principle that will hopefully be further developed into a standard method for membrane proteomic studies. Collectively the tools and methodologies described herein show great potential in allowing researchers to further add to mankind’s understanding of the cellular membrane. Biophysics MALDI-MS Imaging Separations Membrane Proteins Electrophoresis Supported Lipid Bilayers
48	Development of Pillared M(IV) Phosphate Phosphonate Inorganic Organic Hybrid Ion Exchange Materials for Applications in Separations found in the Nuclear Fuel Cycle Burns, Jonathan 14 March 2013 (has links) This dissertation focuses on key intergroup and intragroup separations found in the back end of the nuclear fuel cycle, specifically americium from lanthanides and americium from other actinides, most importantly americium from curium. Our goal is to implement a liquid-solid separation process to reduce waste and risk of contamination by the development of metal(IV) phosphate phosphonate inorganic organic hybrid ion exchange materials with the ideal formula of M(O6P2C6H4)0.5(O3POA) * nH2O, where M = Zr or Sn, A = H or Na. These materials have previously shown to have high affinity for Ln, this work will expand on the previous studies and provide methods for the above target separation, exploiting oxidation state and ion charge to drive the separation process. The optimum hydrothermal reaction conditions were determined by adjusting parameters such as reaction temperature and time, as well as the phosphonate to phosphate (pillarto-spacer) ligands ratio. Following these results four bulk syntheses were performed and their ion exchange properties were thoroughly examined. Techniques such as inductively coupled mass spectrometry and liquid scintillation counting were used to determine the affinity of the materials towards Na+, Cs+, Ca2+, Sr2+, Ni2+, Nd3+, Sm3+, Ho3+, Yb3+, NpO2+, Pu4+, PuO22+, Am3+, AmO2+, and Cm3+. Separation factors in the thousands have been observed for intergroup separations of the Ln from the alkali, alkaline earth, and low valent transition metals. A new method for Am oxidation was developed, which employed Na2S2O8 as the oxidizing agent and Ca(OCl)2 as the stabilizing agent for AmO2+ synthesis. Separation factors of 30-60 for Nd3+ and Eu3+ from AmO2+, as well as 20 for Cm3+ from AmO2+ were observed at pH 2. The work herein shows that a liquid-solid separation can be carried out for these difficult separations by means of oxidation and ion exchange. nuclear waste americium oxidation extraction of actinides lanthanides and actinides separations ion exchange
49	Mulitscale modeling and screening of nanoporous materials and membranes for separations Haldoupis, Emmanuel 08 April 2013 (has links) The very large number of distinct structures that are known for metal-organic frameworks (MOFs) and zeolites presents both an opportunity and a challenge for identifying materials with useful properties for targeted separations. In this thesis we propose a three-stage computational methodology for addressing this issue and comprehensively screening all available nanoporous materials. We introduce efficient pore size calculations as a way of discarding large number of materials, which are unsuitable for a specific separation. Materials identified as having desired geometric characteristics can be further analyzed for their infinite dilution adsorption and diffusion properties by calculating the Henry's constants and activation energy barriers for diffusion. This enables us to calculate membrane selectivity in an unprecedented scale and use these values to generate a small set of materials for which the membrane selectivity can be calculated in detail and at finite loading using well-established computational tools. We display the results of using these methods for >500 MOFs and >160 silica zeolites for spherical adsorbates at first and for small linear molecules such as CO₂ later on. In addition we also demonstrate the size of the group of materials this procedure can be applied to, by performing these calculations, for simple adsorbate molecules, for an existing library of >250,000 hypothetical silica zeolites. Finally, efficient methods are introduced for assessing the role of framework flexibility on molecular diffusion in MOFs that do not require defining a classical forcefield for the MOF. These methods combine ab initio MD of the MOF with classical transition state theory and molecular dynamics simulations of the diffusing molecules. The effects of flexibility are shown to be large for CH₄, but not for CO₂ and other small spherical adsorbates, in ZIF-8. Molecular simulations Separations Zeolites Metal-organic frameworks Nanoporous Nanostructured materials Membranes (Technology) Separation (Technology)
50	The Effects of Attachment Relationships on the Development of Effects of Empathy or Depersonalization in Adolescence Lamanna, John 01 May 2007 (has links) Research on attachment theory supports the notion that our early attachment relationships are integral to empathic development, and that early negative attachment relationships can promote depersonalization rather than empathy. The purpose of the present study was to investigate the effects of separations from one’s primary caregiver(s) on the development of empathy or depersonalization in adolescence. Adolescents who have been separated from their biological parent(s) due to abuse and/or neglect were expected to differ on self-reported levels of empathy, dissociation, hostility, and depression when compared to adolescents who have not had such involuntary separations in their life. After performing descriptive, correlational, and inferential analyses, results indicated that there was not a significant difference between the groups on self-reported levels of empathy, dissociation, hostility, or depressive symptomatology. It is important to note, though, that more than half of the youth who were involuntarily separated from their biological parent(s) continued to view at least one of their parents as a positive attachment figure, and there was not a significant difference between groups on the number of positive attachments reported. The findings in this study were interpreted as supportive of the applications of attachment theory to past empathy research, since differences on the dependent variables were not expected if there were not differences in attachment between the two groups. The results also supported the seminal work of John Bowlby by affirming the role of perception and the cognitive appraisal of attachment figures on attachment security. Furthermore, the results validated the use of the Social Networks Questionnaire (SNQ) and supported its use, in conjunction with the Social Support Questionnaire-Short Form (SSQ6), to assess attachment relationships. adolescent separations adolescent attachments empathy depersonalization Cognitive Psychology Psychology Social Psychology

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