The Behavior Of Cerium Oxide Nanoparticles In Polymer Electrolyte Membranes In Ex-situ And In-situ Fuel Cell Durability Tests

Pearman, Benjamin

01 January 2012

Fuel cells are known for their high efficiency and have the potential to become a major technology for producing clean energy, especially when the fuel, e.g. hydrogen, is produced from renewable energy sources such as wind or solar. Currently, the two main obstacles to wide-spread commercialization are their high cost and the short operational lifetime of certain components. Polymer electrolyte membrane (PEM) fuel cells have been a focus of attention in recent years, due to their use of hydrogen as a fuel, their comparatively low operating temperature and flexibility for use in both stationary and portable (automotive) applications. Perfluorosulfonic acid membranes are the leading ionomers for use in PEM hydrogen fuel cells. They combine essential qualities, such as high mechanical and thermal stability, with high proton conductivity. However, they are expensive and currently show insufficient chemical stability towards radicals formed during fuel cell operation, resulting in degradation that leads to premature failure. The incorporation of durability improving additives into perfluorosulfonic acid membranes is discussed in this work. iv Cerium oxide (ceria) is a well-known radical scavenger that has been used in the biological and medical field. It is able to quench radicals by facilely switching between its Ce(III) and Ce(IV) oxidation states. In this work, cerium oxide nanoparticles were added to perfluorosulfonic acid membranes and subjected to ex-situ and in-situ accelerated durability tests. The two ceria formulations, an in-house synthesized and commercially available material, were found to consist of crystalline particles of 2 – 5 nm and 20 – 150 nm size, respectively, that did not change size or shape when incorporated into the membranes. At higher temperature and relative humidity in gas flowing conditions, ceria in membranes is found to be reduced to its ionic form by virtue of the acidic environment. In ex-situ Fenton testing, the inclusion of ceria into membranes reduced the emission of fluoride, a strong indicator of degradation, by an order of magnitude with both liquid and gaseous hydrogen peroxide. In open-circuit voltage (OCV) hold fuel cell testing, ceria improved durability, as measured by several parameters such as OCV decay rate, fluoride emission and cell performance, over several hundred hours and influenced the formation of the platinum band typically found after durability testing.

Fuel cells

hydrogen

polymer electrolyte membrane

pem

proton exchange membrane

nafion

perfluorosulfonic acid

degradation

degradation mechanisms

accelerated durability

fenton test

ocv hold

fluoride emission

platinum band

degradation mitigation

radical scavengers

cerium oxide

ceria

nanoparticles

Chemistry

Исследование фторидной коррозии алюминиевых матриц в условиях электроэкстракции цинка : магистерская диссертация / Study of fluoride corrosion of aluminum matrices under conditions of zinc electrowinning

Рябухин, Е. А., Ryabuhin, E. A.

January 2018

Объектом исследования является фторидная коррозия алюминиевых матриц, вызывающая повышенную адгезию цинкового осадка к алюминиевому катоду. Цель работы – исследовать поведение ионов фтора при разрушении оксидной пленки алюминиевых матриц. В работе проводились термодинамическое моделирование фторсодержащих водных систем. Проведены эксперименты по изучению влияния ионов фтора на цементацию меди и цинка на алюминии. Проведены потенциометрические и гальванометрические исследования, протекающие на границе алюминий – электролит. Изучено влияние фторид-ионов на кинетику процесса разрушения оксидной пленки алюминия. Экспериментально определено влияние предварительной обработки катодов на скорость фторидной коррозии. / The object of the research is the fluoride corrosion of aluminum matrices, which causes an increased adhesion of the zinc precipitate to the aluminum cathode. The aim of this work is to investigate the behavior of fluoride ions during the destruction of an oxide film of aluminum matrices. Thermodynamic modeling of fluorine-containing water systems was carried out in the work. Studies of effect of fluoride ions on the carburization of copper and zinc on aluminum have been carried out. Potentiometric and galvanometric studies are carried out at the aluminum-electrolyte interface. The effect of fluoride ions on the kinetics of the process of destruction of an aluminum oxide film has been studied. The effect of pretreatment of cathodes on the rate of fluoride corrosion is studied experimentally.

ТРУДНАЯ СДИРКА

АЛЮМИНИЙ

АДГЕЗИЯ

КАТОД

ФТОРИД ИОНЫ

РАЗРУШЕНИЕ

ЭЛЕКТРОЛИТ

МАТРИЦА

КОРРОЗИЯ

ОКСИДНАЯ ПЛЕНКА

MASTER'S THESIS

ZINC ELECTROWINNING

HARD STRIPPING

ALUMINIUM

ADHESION

CATHODE

FLUORIDE IONS

DESTRUCTION

ELECTROLYTE

MATRIX

CORROSION

OXIDE FILM

Frictional Anisotropy of Graphene and Graphene Based Materials

Barabanova, Liudmyla

10 June 2016

No description available.

Materials Science

Molecular Physics

Nanoscience

Nanotechnology

Physical Chemistry

Physics

Oxide and Oxide Fluoride Chemistry of Xenon(VIII), Xenon(VI), and Iridium

Goettel, James T.

January 2017

This Thesis extends our fundamental knowledge of high-oxidation-state chemistry and in particular compounds of Xe(VIII), Xe(VI), and Ir(V). The crystal structure of XeVIIIO4 was obtained and provides important information on this fundamentally interesting endothermic and shock-sensitive compound. Macroscopic amounts of XeO3F2 have been prepared for the first time. Although the low-temperature Raman spectrum of solid XeO3F2 exhibits some frequency shifts and band splittings of the bending modes, the spectrum is similar to the Raman spectrum of the previously reported matrix-isolated compound. The crystal structures of decomposition and byproducts resulting from the syntheses of XeO3F2 have been obtained for [XeF5][HF2]∙XeOF4 and XeF2∙XeO2F2. The solid-state structure of xenon trioxide, XeO3, was reinvestigated by low-temperature single-crystal X-ray diffraction and shown to exhibit polymorphism that is dependent on crystallization conditions. The previously reported α-phase (orthorhombic, P212121) only forms upon evaporation of aqueous HF solutions of XeO3. In contrast, two new phases, β-XeO3 (rhombohedral, R3) and gamma-XeO3 (rhombohedral, R3c) have been obtained by slow evaporation of aqueous solutions of XeO3. The extended structures of all three phases result from Xe=O----Xe bridge interactions among XeO3 molecules that arise from the amphoteric donor-acceptor nature of XeO3. The Xe atom of the trigonal pyramidal XeO3-unit has three Xe---O secondary bonding interactions. The orthorhombic α-phase displays the greatest degree of variation among the contact distances and has a significantly higher density than the rhombohedral phases. The ambient-temperature Raman spectra of solid α- and gamma-XeO3 have also been obtained and assigned for the first time. Xenon trioxide interacts with CH3CN and CH3CH2CN to form O3XeNCCH3, O3Xe(NCCH3)2, O3XeNCCH2CH3, and O3Xe(NCCH2CH3)2. Their low-temperature single-crystal X-ray structures show that the xenon atoms are consistently coordinated to three electron-donor atoms which result in pseudo-octahedral environments around their xenon atoms. The adduct series provides the first examples of a neutral xenon oxide bound to nitrogen bases. Energy-minimized gas-phase geometries and vibrational frequencies were obtained for the model compounds O3Xe(NCCH3)n (n = 1−3) and O3Xe(NCCH3)n∙[O3Xe(NCCH3)2]2 (n = 1, 2). The natural bond orbital (NBO), quantum theory of atoms in molecules (QTAIM), electron localization function (ELF), and molecular electrostatic potential surface (MEPS) analyses were carried out to further probe the nature of the bonding in these adducts. Xenon trioxide forms adducts with the polytopic nitrogen base ligands: hexamine, DABCO, 2,2’-bipyridine, 1,10-phenanthroline, and 4,4’-bipyridine. The adducts were conveniently synthesized in aqueous or CH3CN solutions and are stable at room temperature. The crystal structures of hexamine∙2XeO3, hexamine∙XeO3∙H2O, 2,2’-bipyridine∙XeO3, 1,10-phenanthroline∙XeO3, and 4,4’-bipyridine∙XeO3 have been determined by low-temperature single-crystal X-ray diffraction. The structures consist of XeO3 molecules bridged by the ligands to form extended supramolecular networks with Xe---N bonds which range from 2.634(3) to 2.829(2) Å. Raman spectroscopy was used to characterize and probe the room-temperature stabilities of these adducts. The reaction of 1,4-diazabicyclo[2.2.2]octane (DABCO) with XeO3 in aqueous solutions yields thin, plate-shaped crystals which are severely twinned whereas the reaction of DABCO with XeO3 in the presence of HF forms [DABCOH]2[F2(XeO3)2]∙H2O and [DABCOH2][F][H2F3] which were also characterized by low-temperature X-ray crystallography and Raman spectroscopy. A reversible temperature-dependent phase transition occurred for [DABCOH]2[F2(XeO3)2]∙H2O. The structures of 2,2’-bipy∙XeO3 and 1,10-phen∙XeO3 provide the first examples of noble-gas chelates. The structure of hexamine∙XeO3∙H2O provides the first instance in which a noble-gas centre is coordinated by water. These compounds also represent the first examples of sp2- and sp3-hybridized N---Xe(VI) bonds and are rare examples of noble-gas compounds that are air-stable at ambient temperatures. Adducts between XeO3 and three molar equivalents of the nitrogen bases, pyridine and 4-dimethylaminopyridine (4-DMAP), have been synthesized and characterized. The crystal structures of (C5H5N)3XeO3, {(CH3)2)2NC5H4N}3XeO3∙H2O have been determined by low-temperature single-crystal X-ray diffraction. The reaction of hydrolyzed XeF6 in acetonitrile with pyridine or 4-DMAP afforded [C5H5NH]4[HF2]2[F2(XeO3)2] and [(CH3)2NC5H4NH][HF2]∙XeO3 which were characterized by low-temperature X-ray crystallography and Raman spectroscopy. The structures contain pyridinium cations that are hydrogen bonded to the fluoride coordinated to XeO3 and can be viewed as pyridinium fluoroxenates. The structure of (CH3)2NC5H5N∙XeO3∙H2O contains a water molecule that is hydrogen bonded to two oxygen atoms of two adjacent XeO3 molecules. The pyridine adduct, (C5H5N)3XeO3, was found to be relatively insensitive to shock, whereas the 4-DMAP adduct was extremely shock sensitive. The number of isolable compounds which contain different noble-gas−element bonds is limited for xenon and even more so for krypton. Examples of Xe−Cl bonds are rare and prior to this work, no definitive evidence for a Xe−Br bonded compound existed. The syntheses, isolation, and characterization of the first compounds to contain Xe−Br bonds ([N(C2H5)4]3[Br3(XeO3)3] and [N(CH3)4]4[Br4(XeO3)4]) and their chlorine analogues are described. The bromo- and chloroxenate salts are stable in the atmosphere at room temperature and were characterized in the solid state by Raman spectroscopy, low-temperature single-crystal X-ray diffraction, and in the gas phase by quantum-chemical calculations. They are the only known examples of cage anions that contain a noble-gas element. The Xe−Br and Xe−Cl bonds are weakly covalent and can be viewed as σ-hole interactions, similar to halogen bonds. Xenon trioxide reacts with alkali metal fluorides and chlorides to form a variety of room-temperature stable fluoro- and chloroxenate salts. The reaction of XeO3 with various ratios of KF in water afforded three new compounds. The crystal structures of α-K[F(XeO3)2], β-K[F(XeO3)2], α-K[FXeO3], K2[F2(XeO3)] have been determined. The reaction of XeO3 with aqueous CsF resulted in Cs3[F3(XeO3)2]. The XeVI−F bond lengths range from 2.3520(18) to 2.5927(17) Å. No stable product was isolated when [N(CH3)4]F was the fluoride source, but in the presence of HF, crystals of [N(CH3)4]3[HF2]2[H2F3]∙2XeO3 were obtained. The reaction of KCl with XeO3 in equimolar amounts resulted in the formation of K[ClXeO3] whereas the analogous reaction with CsCl yielded Cs3[Cl3(XeO3)4]. Attempts to synthesize Xe–P and Xe–S bonded compounds were unsuccessful and instead resulted in adducts between XeO3 and O-bases such as the phosphine oxide adduct, {(C6H5)3PO}2XeO3 and dimethylsulfoxide (DMSO) adduct {(CH3)2SO}3(XeO3)2. Although DMSO was found to be resistant to oxidation by XeO3, no significant Xe---S bonding interactions were observed. Acetone was found to be highly resistant to oxidation by XeO3 and forms {(CH3)2CO}3XeO3 at low temperatures. The reaction of pyridine-N-oxide yielded large crystals of (C5H5NO)3(XeO3)2 in which the structure contains short chains in contrast with ((CH3)2SO)3(XeO3)2 whose structure consists of discrete dimers. The reaction of XeO3 with the oxidatively resistant main-group oxide anion source, [N(CH3)4][OTeF5] in CH3CN solvent afforded [N(CH3)4][F5TeOXeO3(CH3CN)2]. Xenon trioxide reacts with potassium hydroxide to form the previously known K4[XeO6]∙2XeO3 salt which was characterized by Raman spectroscopy and low-temperature X-ray crystallography. The reaction of MgO with XeO3 yielded single crystals of [Mg(OH2)6]4[XeO6(XeO3)12O2]∙12H2O, which also contains perxenate-XeO3 interactions. Alkali metal carbonates also incorporate XeO3 into their crystal lattices. Raman spectra of M2[CO3(XeO3)n]∙xH2O (M = Na, K, Rb) were recorded and contain intense bands assigned to the XeO3 stretching modes and very weak bands assigned to the [CO3]2− modes. The reaction of dilute aqueous solutions of XeO3 with RbOH and atmospheric CO2 afforded single crystals of Rb2[CO3(XeO3)2]∙2H2O which were characterized by low-temperature X-ray crystallography. Attempts to incorporate XeO3 into other polyatomic anion salts such as KMnO4, NaClO3, and NaNO3 were unsuccessful. The reaction of IrO2 with XeF6 in aHF provided [Xe2F11][IrF6], whereas the reaction of IrO2 with KrF2 with ClF3 in anhydrous HF solvent provided [ClO2][Ir2F11] and [ClO2][(μ-OIrF4)3]. The structure of [(μ-OIrF4)3]− consists of a six membered Ir3O3 ring with four terminal fluorine atoms on each Ir atom. It was also found that ClF3 forms an adduct with [Xe2F11][HF2] in which the structural parameters of ClF3 are very similar to that of solid ClF3. The [ClO2][Ir2F11] salt provides the first structural information on the [Ir2F11]− anion and the [(μ-OIrF4)3]− anion represents the first isolated iridium oxide fluoride species. / Thesis / Doctor of Philosophy (PhD) / Xenon is a noble-gas element which is located in the far right-hand column of the periodic table and was previously thought to be chemically unreactive and incapable of forming compounds. In 1962, it was shown that xenon reacts with the most reactive compounds, such as elemental fluorine, but the resulting xenon compounds are themselves highly reactive. This Thesis extends the chemistry of some of the most unstable and chemically reactive xenon compounds that are currently known. One such compound, xenon trioxide, tends to easily detonate unless carefully handled. Methods of stabilizing xenon trioxide were developed and its behaviour with compounds which resulted in formation of new xenon compounds was studied. The molecular structures of these compounds were investigated in the solid with particular emphases on their chemical bonding. Iridium is one of the most chemically resistant metals known. Highly reactive xenon and krypton compounds were used synthesize new iridium compounds.

Inorganic Chemistry

Fluorine

Noble-gas Chemistry

Xenon

X-ray crystallography

Raman spectroscopy

High-oxidation states

xenon trioxide

Lewis acid base adducts

supramolecular

haloxenates

bromine xenon bond

iridium oxide fluoride

iridium dioxide

perxenate

xenon tetroxide

Pyroelektrische Materialien: elektrisch induzierte Phasenumwandlungen, thermisch stimulierte Radikalerzeugung

Mehner, Erik

17 October 2018

Zur Messung pyrelektrischer Koeffzienten wurde ein Messplatz nach einem erweiterten SHARP-GARN-Verfahren entwickelt und zur Untersuchung von Phasenumwandlungen in Pyroelektrika eingesetzt. Einerseits konnten pyroelektrische Messungen im elektrischen Feld die Pyroelektrizität einer neuen durch elektrisch angetriebene Defektmigration erzeugten Phase in Strontiumtitanat nachweisen. Andererseits gelang es, Ferroelektrizität in der Hochtemperaturphase von Poly(Vinylidenfluorid-Trifluorethylen), mittels phasenreiner Präparation der Hochtemperaturphase unterhalb der CURIEtemperatur und anschließender Polarisierung, nachzuweisen. Ferner ließen sich mittels thermisch angeregter Pyroelektrika Redoxprozesse antreiben, was durch Desinfektion von Escherichia coli Bakterien in wässriger Lösung mittels Lithiumniobat und -tantalat gezeigt wurde. Die Hypothese der Desinfektion durch reaktive Sauerstoffspezies konnte durch spektroskopisch nachgewiesene OH-Radikale - erzeugt mittels thermisch angeregter Bariumtitanatnanopartikel - belegt werden.

info:eu-repo/classification/ddc/540

ddc:540

Pyroelektrizität

Phasenumwandlung

elektrisches Feld

Radikal <Chemie>

Messtechnik

Avaliação das características fisico-químicas de géis de fluor de uso odontológico profissional. / Evaluation of the physicochemical characteristics of fluoride gels for professional dental use. / Evaluación de las características fisicoquímicas de geles de fluor de uso odontológico profesional. / Évaluation des caractéristiques physico-chimiques des gels fluorés à usage dentaire professionnel.

CARDOSO, Gina Maria Coelho de Souza.

05 April 2018

Submitted by Johnny Rodrigues (johnnyrodrigues@ufcg.edu.br) on 2018-04-05T19:46:22Z No. of bitstreams: 1 GINA MARA COELHO DE SOUZA CARDOSO - DISSERTAÇÃO PPG-CEMat 2014..pdf: 1501065 bytes, checksum: e02311753867e448c8a544a0dd42857f (MD5) / Made available in DSpace on 2018-04-05T19:46:22Z (GMT). No. of bitstreams: 1 GINA MARA COELHO DE SOUZA CARDOSO - DISSERTAÇÃO PPG-CEMat 2014..pdf: 1501065 bytes, checksum: e02311753867e448c8a544a0dd42857f (MD5) Previous issue date: 2014-07-17 / O uso clínico de géis de flúor para aplicação tópica por profissionais está indicado para prevenção e tratamento de cárie e erosão dental devido à capacidade de interação com o processo de desmineralização-remineralização da matriz mineral do dente. O objetivo geral deste trabalho foi avaliar géis com flúor para remineralização dentária de uso tópico profissional quanto às características físico-químicas especificadas nos registros concedidos pela ANVISA. Foi verificada a existência de quinze (15) registros válidos na ANVISA, referentes a dezesseis (16) produtos de gel com flúor de uso tópico odontológico. Quanto a estes produtos, são oito (8) géis de flúor neutro e oito (8) géis de flúor acidulado. Todos os produtos possuem em sua composição fluoreto de sódio e o polímero mais utilizado para formação do gel é hidroxietil celulose, conforme declarado nos processos de registro na ANVISA. Em 60% dos processos de registro válidos há informação sobre o pH dos produtos. Com o levantamento realizado em março de 2014 nas dentais do Distrito Federal (DF), verificou-se a comercialização de dois produtos de um mesmo fabricante, sendo um gel de flúor neutro e um gel de flúor acidulado. Para a caracterização físico-química, foram adquiridos nove frascos de 200 mL de gel de flúor comercializados no DF: três de gel de flúor acidulado dentro da validade, três de gel flúor acidulado fora da validade e três de gel de flúor neutro. Estes produtos foram avaliados pelas seguintes técnicas: Microscopia eletrônica de varredura (MEV), Espectroscopia de energia dispersiva de raios X (EDS), espectroscopia na região de infravermelho com transformada de Fourier (FTIR), calorimetria exploratória diferencial (DSC), análise termogravimétrica (TGA) e avaliação do potencial hidrogeniônico (pH). Os elementos químicos identificados na análise por EDS estão condizentes com a composição química dos produtos declarados pelo fabricante à ANVISA. Os resultados de FTIR não demonstraram alterações significativas entre as amostras avaliadas. Foram verificados resultados diferentes entre as amostras, nos ensaios de TGA e DSC, isto provavelmente está relacionado com a desidratação das amostras e a formação de aglomerados. Os produtos avaliados a 25°C apresentaram resultados satisfatórios quanto ao pH. Mais pesquisas sobre a caracterização físico-química para o gel de flúor tópico de uso profissional odontológico são necessárias para embasar o desenvolvimento de normas técnicas específicas. / Clinical use of fluoride gels for topical application by professionals is indicated for prevention and treatment of dental caries and dental erosion due to the ability to interact with the process of demineralization - remineralization of tooth mineral matrix. The general objective of this work was to evaluate the physicochemical characteristics of topical gels for professional dental remineralization specified in the records granted by ANVISA. There were fifteen (15) valid records, relating to sixteen (16) products of fluoride gel use dental topic has been verified. As for these products, there were eight (8) neutral fluoride gels and eight (8) acidulated fluoride gels. All products contain in their composition sodium fluoride and the most used polymer for gel formation is hydroxyethyl cellulose. All acidulated fluoride gels have in their composition 1.23 % fluorine ions and all neutral fluoride gels contain 2 % NaF in its composition, as stated in the registration process at ANVISA. In 60 % of valid registration process there was information about the pH of the product. In the survey conducted in March 2014 in dental stores at Federal District (DF), it was observed the marketing of two products from the same manufacturer, being one neutral fluoride gel and one gel of acidulated fluoride. For physicochemical characterization, nine bottles of 200 ml of fluoride gel were acquired in DF: three of acidulated fluoride gel within the validity, three of acidulated fluoride gel out of date and three of neutral fluoride gel. These products were evaluated by the following techniques: Scanning Electron Microscopy (SEM), Energy Dispersive X-ray Spectrometry (EDS), Fourier Transform Infrared Spectrometer (FTIR), Differential Scanning Calorimetry (DSC), Thermogravimetry (TG) and evaluation of the hydrogen potential (pH). The chemical elements identified by EDS analysis, in regions without clusters and with clusters of dehydrated samples, are consistent with the chemical composition of the products declared by the manufacturer to ANVISA. The FTIR outcomes showed no significant changes among analyzed samples. Different results among samples were observed during DSC and TGA tests, this is probably related to dehydration of the samples and the formation of agglomerates. More studies about the physicochemical characteristics of topical gels for professional dental remineralization are needed to support the development of specific technical standards.

Ciência e Engenharia de Materiais

Géis de fluor - Odontologia.

Fluoretos

Remineralização dentária

géis - uso tópico odontológico

Fluoreto de sódio

Flúor fosfato acidulado

Calorimetria Exploratória Diferencial

Termogravimetria (TG)

Microscopia Eletrônica de Varredura

Scanning Electron Microscopy

Evaluation of Hydrogenion Potential

Thermogravimetry

Acidulated phosphate fluoride

Sodium Fluoride

Fluoruro de sodio

Fluorure de sodium

Reminéralisation des dents

Remineración dental

Geles de fluor - Odontología.

Gels de fluorure - Dentisterie.

Photon Upconversion Sensitized Rare-Earth Fluoride Nanoparticles

Monks, Melissa-Jane

26 June 2023

Aufkonversions-Nanokristalle (UCNC) zeichnen sich als einzigartige Lumineszenzreporter aus, die Nah-infrarotes Anregungslicht in Photonen höherer Energie umwandeln. Für die gezielte Anpassung von Eigenschaften, bedarf es ein tiefes Verständnis der Prozesse der Aufwärtskonversionslumineszenz (UCL) und deren Abhängigkeit von Material und Partikeldesign. Diese Doktorarbeit untersucht die UCL-Prozesse von Yb3+,Er3+ dotierten SrF2-UCNC und zielt darauf ab, die UCL-Eigenschaften der bisher unterschätzten kubischen Wirtsgitter zu verstehen und zu steigern. Hierbei wird die fluorolytische Sol-Gel-Synthese als neuartige Syntheseroute für UCNC vorgestellt. Vorteile wie ausgezeichnete Reproduzierbarkeit, viele Freiheitsgrade bei der Temperaturbehandlung und Partikelgestaltung werden anhand von SrF2 UCNC demonstriert. Die UCNC wurden mittels UCL-Spektren, UCL-Quantenausbeuten, leistungsdichte-abhängiger relativer spektraler Verteilung sowie der Lumineszenzabklingkinetiken unter Einbeziehung kristalliner Eigenschaften wie der Kristallphase, der Kristallitgröße, der Gitterparameter und der Teilchengröße untersucht. Die Abhängigkeit der UCL-Eigenschaften von der Dotierungsmenge wurde mit einer umfassenden Dotierungsreihe beschrieben und der optimale Dotierungsbereich (Yb3+,Er3+) von kleinen, ungeschalten SrF2-UCNC eingegrenzt. Bei der Studie dotierter Kerne mit passivierenden Schalen wurde der Einfluss von Temperaturbehandlung auf die UCL-Mechanismen und die Kern-Schale-Vermischung untersucht. Anhand von unterschiedlich kalzinierten UCNC Pulvern wurde die Empfindlichkeit der UCL gegenüber der Änderung kristalliner Eigenschaften, wie Kristallphase, Kristallinität, und Kristallitgröße betrachtet. Zusammen liefern die Dotierungs-, die Kern-Schale- und die Kalzinierungsstudie wertvolle Einblicke in das gitterspezifische Verhalten der UCL-Eigenschaften als Funktion der Energiemigration und der Kristalleigenschaften. / Upconversion nanocrystals (UCNC) represent a unique type of luminescence reporters that convert near-infrared excitation light into higher energy photons. Tailoring UCNC with specific luminescence properties requires an in-depth understanding of upconversion luminescence (UCL) processes and their dependence on material and particle design. This Ph.D. thesis focuses on the UCL processes of Yb3+,Er3+ doped SrF2-UCNC and aims to understand and enhance the UCL properties of the previously underestimated cubic host lattices. Herein, fluorolytic sol-gel synthesis is introduced as a novel synthetic route for UCNC. Advantages such as excellent reproducibility, high flexibility in temperature treatment and particle design are demonstrated using SrF2 UCNC. The UCNC were characterized by UCL spectra, UCL quantum yields, excitation power density-dependent relative spectral distribution, and luminescence decay kinetics involving crystalline properties such as crystal phase, crystallite size, lattice parameters, and particle size. The dependence of UCL properties on doping amount was described in a comprehensive doping study, and the optimal doping range (Yb3+,Er3+) of small, unshelled SrF2-UCNC was identified. In a core-shell study of doped core UCNC with passivating shells, the influence of temperature treatment on UCL mechanisms and core-shell mixing was investigated. Further, using different calcined UCNC powders, the sensitivity of UCL to the change of crystalline properties, such as crystal phase, crystallinity, and crystallite size, was assessed. Together, the doping, core-shell, and calcination studies provide valuable insight into the lattice-specific behavior of UCL properties as a function of energy migration and crystal properties.

Aufkonversionslumineszenz

Lumineszenzsabklingzeiten

Lumineszenzlöschung

Fluorolytische Sol-Gel-Synthese

Strontiumfluorid

Ytterbium

Erbium

Anregungsleistungsdichte

Kernschalepartikel

Nanokristalle

Nanopartikel

Aufkonversionslumineszenzquantenausbeute

lanthanide-doped nanocrystals

upconversion luminescence

luminescence decay

luminescence microenvironment

lanthanide doping

Erbium

Ytterbium

Strontium Fluoride

fluorolytic sol-gel synthesis

nanocrystals

nanoparticle

core shell intermixing

passivating shell

calcination study

annealing study

cubic phase UCNC

Ytterbium clustering

Calcium Fluoride

UCL spectra

relative spectral distribution

NIR emission

Doping Series

upconversion luminescence quantum yields

Yb-Yb energy migration

NaYbF4

SrF2

CaF2

Yb3+, Er3+ co-doping

546 Anorganische Chemie

541 Physikalische Chemie

VG 8757

VE 8007

VH 8010

VH 8061

VH 8059

ddc:546

ddc:541

Origine de la minéralisation des eaux dans un aquifère multicouche profond : exemple de la "zone minéralisée de l'Entre-Deux-Mers" (Bassin Aquitain, France) / Origin of groundwaters’ mineralization in a deep multi-layered aquifer : example of the “mineralized Entre-Deux-Mers area” (Aquitaine Basin, France)

Malcuit, Eline

02 April 2012

La caractérisation géochimique et isotopique des eaux souterraines de la « zone minéralisée de l’Entre-Deux-Mers » indique une origine commune de la minéralisation, directement liée à la minéralogie des formations captées par les forages.La géochimie montre que les interactions eau-roche sont majoritairement influencées par la présence d’évaporites, mais que d’autres interactions mettant en jeu des carbonates, des silicates et des argiles existent. Un modèle géochimique d’acquisition de la minéralisation reconstitue parfaitement la chimie des eaux souterraines à l’échelle de la zone d’étude. Ce modèle, construit en se basant sur la géochimie des eaux et sur la minéralogie des formations tertiaires du nord du Bassin aquitain, met à l’équilibre des eaux avec des formations carbonatées et évaporitiques. Afin de mieux comprendre la distribution latérale et verticale des formations tertiaires et leur minéralogie, une approche paléogéographique et sédimentologique a permis de localiser les différents horizons riches en sulfates et/ou en fluorures, mais aussi de comprendre leur origine de dépôt. En se basant sur l’hydrogéologie, la paléogéographie, la minéralogie et la géochimie, des hypothèses de répartition de la minéralisation à l’échelle du forage ont pu être testées. Les résultats de la modélisation couplée hydrodynamique–transport reconstituent la chimie des eaux prélevées par les forages de la « zone minéralisée de l’Entre-Deux-Mers ». Au vu de ces résultats, un modèle avec obturation des horizons riches en sulfates et en fluorures a été testé et les résultats obtenus ouvrent des perspectives pour des futures recherches. Ce travail a donc permis de comprendre l’origine de la minéralisation des eaux de « la zone minéralisée de l’Entre-Deux-Mers », mais aussi de proposer des améliorations et des perspectives pour une meilleure gestion d’une des principales ressources en eau potable de la Gironde. / Geochemical and isotopic characterizations of groundwaters in the "mineralized Entre-Deux-Mers area" indicate a common origin of the mineralization, directly linked to the mineralogy of the formations abstracted by drilling.Geochemistry shows that water-rock interactions are mainly influenced by the presence of evaporites, and that but that other interactions involving carbonates, silicates and clays exist. A geochemical model based on the water geochemistry and mineralogy of the Tertiary formations of northern Aquitaine Basin fix waters in equilibrium with evaporitic and carbonated formations. This model reconstitutes perfectly the groundwaters’ chemistry across the study area and explains the mineralization acquisition. Improving the understanding of the lateral and vertical distribution of tertiary formations and their mineralogy requires a sedimentological and paleogeographical approach. This approach allowed to locate the different layers rich in sulphates and/or fluoride and to understand also their origin.Based on hydrogeology, paleogeography, mineralogy and geochemistry, the distribution of the mineralization has been tested at the borehole scale. The results of this coupled hydrodynamic-transport modeling reconstitute the chemistry of the groundwaters in the "mineralized Entre-Deux-Mers area." A model, that considers the sealing of sulphates- and fluorides-rich layers has been tested and its results highlights future research perspectives. This work has allowed understanding the origin of the mineralization of the waters "of the mineralized Entre-Deux-Mers area" and also suggests improvements and prospects for sustainable management of a major drinking water resource in Gironde.

Bassin aquitain

Entre-Deux-Mers

Eocène

Aquifère multicouche

Eaux souterraines

Hydrogéologie

Analyses géochimiques

Interaction eau-roche

Datation

Paléogéographie

Minéralogie

Évaporites

Fluorures

Dilution

Mélange

Aquitaine Basin

Entre-Deux-Mers

Eocene

Multi-layered aquifer

Groundwaters

Hydrogeology

Geochemical and isotopic analyzes

Water-rock interaction

Dating tools

Paleogeography

Mineralogy

Evaporates

Coupled hydrodynamic-and transport model

Dilution/mixture (mixing)

Fluoride

Groundwater purification using functionalised magnetic nanoparticles (electromagnetic separation)

Aigbe, Uyiosa Osagie

01 1900

Most developing countries are faced with drinking water problems, with conditions becoming more severe due to water pollution. Meeting the growing demands for clean water in most countries, there are difficult challenges as the availability and supply of drinkable water are diminishing. Due to economic and environmental concerns, development of additional physical means for the removal of organic compounds from wastewater using permanent magnets, electromagnetic coils, electrodes and ultrasonic pretreatment is desirable. Improving the adsorption and separation process, magnetic field exposure method has progressively drawn consideration. Magnetic field exposure method has demonstrated its capacity for increasing the adsorptive elimination of contaminants from water as static magnetization is suitable, simple and cost-effective. The polypyrrole magnetic nanocomposite use for adsorption experiments influenced by exter-nal magnetic field was prepared using the in-situ polymerization method, which was charac-terized using TEM, SEM, EDX, XRD, BET, FTIR, VSM, and ESR spectrophotometers. The magnetic nanocomposite (PPy/Fe3O4) was observed to have an average particle size of 10 nm with the elementary composition of carbon, oxygen, nitrogen, chloride and iron. The magnetic nanocomposite had a crystalline structure of face-centred cubic lattice of Fe3O4, an adsorption-desorption isotherm shape indicating a typical type-IV mesoporous material with a surface area of 28.77 m2/g. Characteristic peaks of Fe3O4 and PPy were also observed using FTIR spectro-photometer. From the VSM and ESR characterization, the synthesized superparamagnetic ma-terial was shown to have a saturation magnetization of 23 emu/g and an effective g-value of 2.25 g which was attributed to Fe3+ spin interaction. An enhanced removal of Cr(VI), fluoride and congo red dye were observed under the influence of magnetic field, with parameters like pH, adsorbent dosage, the initial concentration of ad-sorbate, magnetic field and magnetic exposure time been varied. The enhanced adsorption of contaminants using magnetic field is attributed to the increase in the magnetic field induced on the particles over a magnetic exposure time, resulting in the rotating particles forming aggre-gates due to the increased magnetic force and torque on the particles from the PSV results. This leads to increase in the chain collision and area of particle interaction with the aqueous solution of hexavalent chromium, fluoride and congo red dye. / Physics / Ph. D. (Physics)

Magnetic nanoparticles

Magnetic field

Water treatment

Velocimetry

Adsorption

Congo red

Hexavalent chromium

Fluoride

Three-phase

Induction motor

Aggregation

Velocity magnitude

Velocity field

Wall channel

Kinetics

Isotherm

539.72

Groundwater -- Purification

Nanoparticles -- Environmental aspects

Nanoparticles -- Magnetic properties

Particles (Nuclear physics)

Conceptual design of a breed & burn molten salt reactor

Kasam, Alisha

January 2019

A breed-and-burn molten salt reactor (BBMSR) concept is proposed to address the Generation IV fuel cycle sustainability objective in a once-through cycle with low enrichment and no reprocessing. The BBMSR uses separate fuel and coolant molten salts, with the fuel contained in assemblies of individual tubes that can be shuffled and reclad periodically to enable high burnup. In this dual-salt configuration, the BBMSR may overcome several limitations of previous breed-and-burn (B$\&$B) designs to achieve high uranium utilisation with a simple, passively safe design. A central challenge in design of the BBMSR fuel is balancing the neutronic requirement of large fuel volume fraction for B$\&$B mode with the thermal-hydraulic requirements for safe and economically competitive reactor operation. Natural convection of liquid fuel within the tubes aids heat transfer to the coolant, and a systematic approach is developed to efficiently model this complex effect. Computational fluid dynamics modelling is performed to characterise the unique physics of the system and produce a new heat transfer correlation, which is used alongside established correlations in a numerical model. A design framework is built around this numerical model to iteratively search for the limiting power density of a given fuel and channel geometry, applying several defined temperature and operational constraints. It is found that the trade-offs between power density, core pressure drop, and pumping power are lessened by directing the flow of coolant downwards through the channel. Fuel configurations that satisfy both neutronic and thermal-hydraulic objectives are identified for natural, 5$\%$ enriched, and 20$\%$ enriched uranium feed fuel. B$\&$B operation is achievable in the natural and 5$\%$ enriched versions, with power densities of 73 W/cm$^3$ and 86 W/cm$^3$, and theoretical uranium utilisations of 300 $\mathrm{MWd/kgU_{NAT}}$ and 25.5 $\mathrm{MWd/kgU_{NAT}}$, respectively. Using 20$\%$ enriched feed fuel relaxes neutronic constraints so a wider range of fuel configurations can be considered, but there is a strong inverse correlation between power density and uranium utilisation. The fuel design study demonstrates the flexibility of the BBMSR concept to operate along a spectrum of modes ranging from high fuel utilisation at moderate power density using natural uranium feed fuel, to high power density and moderate utilisation using 20$\%$ uranium enrichment.