Antennes souples à base de métamatériaux de type conducteurs magnétiques artificiels pour les standards de systèmes de géolocalisation

Silva Pimenta, Marcio

14 November 2013

Grâce aux progrès réalisés ces dernières années dans la conception de réseaux intelligents, tels que les réseaux centrés sur la personne (WBAN) ou les réseaux sans fils de proximité (WPAN), de nouveaux types d'applications émergent et utilisent des capteurs d'informations capables de relever les paramètres physiologiques, environnementaux et plus particulièrement le positionnement des personnes. Dans ce cadre, nous nous sommes attachés dans ce travail de recherche à la conception et la réalisation d'antennes en polarisation circulaire pouvant être intégrées dans des vêtements, pour les standards de géolocalisation européen Galiléo et Américain GPS. Nous avons utilisé pour ces antennes des structures métamatériaux de type conducteurs magnétiques artificiels, afin d'augmenter les performances en rayonnement et pour diminuer le couplage avec et le corps humain. Une autre voie explorée est l'utilisation d'antennes patchs qui sont de nature faible encombrement. La bande de fréquence du standard de communications par satellite Iridium étant très proche du standard de géolocalisation GPS, nous avons trouvé intéressant de développer une solution de type patch couvrant les deux bandes GPS (1,575 GHz) et Iridium (1,621 GHz). L'antenne devant être intégrée sur une boite crânienne, les niveaux de débit d'absorption spécifique et les modifications du rayonnement sous conformation de l'antenne ont également été étudiés. L'évolution de ce travail a été ensuite d'étudier le comportement de cette antenne posée sur le dessus d'un casque militaire français. Les performances en rayonnement ont été satisfaisantes et ont montré la possibilité d'une telle application.

[SPI:OTHER] Engineering Sciences/Other

Patch

Polarisation circulaire

GNSS

Iridium

Débit d'absorption spécifique

Antenne souple sur textile

Transformational communications architecture for the Unit Operations Center (UOC), Common Aviation Command and Control System (CAC2S), and Command and Control On-the-Move Network, Digital Over-the-Horizon Relay (CoNDOR)

Joseforsky, David C., Garcia, Gilbert O.

06 1900

Approved for public release, distribution is unlimited / The purpose of this research was to introduce a Transformational Communications Architecture for the Unit Operations Center (UOC); Common Aviation Command and Control System (CAC2S); and Command and Control On-the- Move Network, Digital Over-the-Horizon Relay (CoNDOR). The methodology used was to conduct Field Tests with government contractors and private vendors in order to demonstrate the capabilities of each wireless technology researched. These wireless technologies, Free Space Optics (FSO), Microwave, 802.16, 802.11b over SecNet-11, Orthogonal Frequency Division Multiplexing (OFDM), Broadband Satellite, INMARSAT, and Iridium, all have the potential of being implemented in the transformational communications architecture for intra-nodal and inter-nodal links for UOC and CAC2S, as well as the CoNDOR communications architecture. The ultimate goal of this research was to introduce different technologies that offer more flexibility, mobility, and capability at the tactical level giving the Marine Corps the tactical wireless edge. Throughout this research, the focus revolved around testing equipment and network configurations in an IP network. Special consideration was given to wireless issues for the UOC, CAC2S, and CoNDOR, which could improve line-of-sight, beyond line-of-sight, and over-the-horizon communications for each program. These new technologies will transform communications in the United States Marine Corps for the 21st century. / Captain, United States Marine Corps

Technological innovations

Wireless communication systems

UOC

CAC2S

CoNDOR

FSO

802.11b

SecNet-11

802.16

OFDM

Microwave

SATCOM

INMARSAT

IRIDIUM

KG-235

LOS

BLOS

OTH

Communications on-the-move

FORCEnet

Investigação teórica da agregação de complexos catiônicos de Ir (III) com potencial aplicação em LEEC\'s e OLED\'s / Theoretical investigation of the aggregation of cationic complexes of Ir(III) with potential application in LEECs and OLEDs

Almeida, Tiago dos Reis

18 August 2016

Nos últimos anos, complexos de irídio tem sido sugeridos para uso em materiais luminescentes, tais como diodos orgânicos emissores de luz (OLED\'s) e células eletroquímicas emissoras de luz (LEEC\'s). Suas potenciais utilidades como dispositivo é devido as suas características físico-químicas e fotofísicas, as quais são caracterizadas por tempos de vida curtos para o tripleto, estabilidade térmica, além da possibilidade de modificar a emissão sobre uma vasta gama de cores do espectro. Atualmente, muitas pesquisas tentam encontrar complexos de irídio com emissão de luz azul. No entanto, embora emissores de luz azul já tenham sido desenvolvidos, existe o problema relacionado a agregação destes complexos. Para resolver este o problema da agregação é necessário modificar a estrutura padrão do complexo com cadeias carbônicas saturadas para evitar empilhamento π-π. Experimentalmente esta é uma tarefa um tanto difícil. Dessa forma, métodos computacionais têm sido viáveis como uma abordagem para entender a estrutura e propriedades eletrônicas dos sistemas estudados. Aqui, é apresentado um estudo teórico baseado na teoria do funcional da densidade (DFT) para investigar a agregação de complexos de irídio, além de predizer como esta pode ser controlada com o uso de grupos substituintes adequados. Os cálculos foram realizados usando funcional PBE0 e conjunto de base 6-31G*, o qual provou ser adequada na descrição das propriedades do complexo. Portanto, cálculos subsequentes mostraram bons resultados, onde os estados excitados foram previstos ser de natureza predominantemente MLCT (transferência de carga do metal para o ligante) para o complexo 1 e LC (carga centrada no ligante) para o complexo 2. Alterações no ambiente químico provou ter grande influência sobre os estados excitados, onde a inclusão do solvente favoreceu a estabilidade, mantendo os estados excitados tripletos com energia entre 3.01 eV e 3.03 eV. Além disso, o uso dos grupos substituintes provou ser de grande importância para prevenir a agregação, especialmente no complexo 2, em que a partir do dímero matriz (sem substituintes) para o complexo substituído 2-1 (com metil) houve uma desestabilização da energia de interação entre os monômeros no dímero por ~ 19.78 kcal/mol, sendo que a energia do primeiro foi estimada ser -39.78 kcal/mol, enquanto o segundo foi -20 kcal/mol. Nossos resultados sugerem que a modificação do complexo torna-se bastante promissora, fazendo uso de pequenos grupos substituintes e cadeias carbônicas alifáticas, evitando assim, a agregação por empilhamento π-π. / In the last few years, iridium complexes have been suggested for use in luminescent materials such as organic light-emitting diodes (OLEDs) and light emitting electrochemical cells (LEECs)1-3. Their potential utility as luminescent devices is due to the physicochemical and photophysical properties, which are featured by short triplet emitting lifetimes (microseconds time scale), thermal stability, besides of possibility to tune the emission over desired spectral range. Actually, many researches try to find iridium complexes with efficient deep-blue emission, in order to use in these devices. Although many deep-blue emitters have been developed, there is still a big problem related to aggregation. So far, little has been reported about iridium complexes in solid environments, such as inorganic matrix of OLEDs and LEECs devices. To solve this issue is needed tune the structure of the complex in order to prevent the aggregation (steric hindrance), by means of drawing saturated carbon chains on the ligands to avoid the π-π stacking. Experimentally, this is a rather challenging and expensive task. In this aspect, computational methods have been performed as approaches to gain deeper insights about the structure and electronic properties of the studied systems. Here, we present a theoretical study based on density functional theory to investigate the aggregation iridium complexes, in addition to predict how this can be controlled with the use of suitable substituent groups. Calculations were performed using functional PBE0 and 6-31G* basis functions, which proved adequate in describing the properties of the complex. Therefore, subsequent calculations showed good results, where the excited state of the complex are provided, these being predominantly MLCT (metal to ligand charge transfer) nature for the complex 1 and LC (ligand centered) nature to complex 2. Changes in the chemical environment proved to have great influence on the excited states, where the inclusion of the solvent favored its stability, keeping the triplet excited states with energy between 3.01 and 3.03 eV. Furthermore, the use of substituent groups proved to be of great importance to prevent aggregation, especially in complex 2, wherein from the matrix dimer (no substituted) to complex with methyl groups there was a destabilization of the interaction energy between the monomers in the dimer by ~ 19.78 kcal / mol, being that the energy of the first was -39.78 kcal / mol, while the second was to -20 kcal / mol. Our results suggest that the modification of the complex becomes quite promising, making use of small groups and aliphatic carbon chains, thus avoiding aggregation by stacking.

Aggregation

Agregação

Blue-emission

Complexos de Irídio

Density Functional Theory

Emissão de Luz Azul

Estados Excitados

Excited States

Iridium Complexes

LEEC's

LEEC\'s

OLED's

OLED\'s

Teoria do Funcional da Densidade (DFT)

Estudo da atividade eletrocatalítica de óxidos nanoestruturados de Ru, Ir, Hf e La visando o estudo da reação de redução de oxigênio (RRO) / Study of electrocatalytic activity of nanostructured oxides of Ru, Ir, Hf and La for the study of the oxygen reduction reaction (ORR)

Reis, Jonas Batista

04 September 2015

Neste trabalho foi estudada a atividade eletrocatalítica dos eletrocatalisadores nanoestruturados de Ru, Ir, Hf ou La suportados em carbono Printex 6L frente à Reação de Redução de Oxigênio (RRO) em meio ácido. Inicialmente analisou-se a influência do Método de Impregnação e dos Precursores Poliméricos (MPP), também conhecido como Pechini para os eletrocatalisadores RuO2/C e IrO2/C. Ficou evidente neste estudo, que os materiais obtidos pelo MPP apresentaram uma maior eficiência de corrente para a eletrogeração de H2O2 quando comparado ao método da Impregnação. Na etapa seguinte, os eletrocatalisadores HfO2/C e LaONO3/C foram preparados apenas pelo MPP. As propriedades estruturais, morfológicas e de superfície foram investigadas por meio das técnicas de caracterização DRX, FRX, MET, XPS e TG. De acordo com os dados de DRX e MET, verificou-se que o método de incorporação do metal no carbono Printex 6L favoreceu a formação dos óxidos nanoestruturados. Ademais, foi verificado que os eletrocatalisadores obtidos pelo método de Pechini apresentam menores tamanho de cristalitos (1 a 5 nm), melhor distribuição dos óxidos sobre a matriz de carbono (menos aglomerados) e menores tamanhos de partículas. O comportamento eletroquímico dos eletrocatalisadores foi avaliado através das voltametrias lineares (curvas de polarização) obtidas pelo eletrodo de disco anel rotatório (RRDE). Os resultados obtidos pelas voltametrias lineares, cálculos de eficiência de corrente de H2O2 (H2O2 %), número total de elétrons trocados (nt) e de Koutecký-Levich mostraram que a incorporação dos eletrocatalisadores (Ru e Ir) no carbono Printex 6L obtidos por ambos os métodos de síntese influenciaram negativamente na eletrogeração de H2O2. Neste caso, os eletrocatalisadores de Ru e Ir apresentaram uma tendência ao mecanismo via 4 elétrons, ou seja, geração de H2O como produto final da RRO. Os resultados mostraram ainda que os eletrocatalisadores contendo maiores teores de Hf, apresentaram maiores eficiência de corrente para H2O2 quando comparado ao carbono Printex 6L, uma vez que o catalisador contendo 15 % de Hf apresentou valores de eficiência de corrente de H2O2 próximos a 80 % e número de elétrons de 2,4. Além disso, foi observado também um deslocamento no potencial de aproximadamente 200 mV para valores mais positivos, o que significa um menor consumo energético em termos de eletrogeração de H2O2. Para os eletrocatalisadores à base de La, a amostra contendo 7% apresentou uma melhor eficiência de corrente de H2O2, com valores próximos a 87% e número de elétrons de 2,3, além de um deslocamento do potencial de aproximadamente 250 mV para valores mais positivos. Pode-se inferir então, que os eletrocatalisadores de Hf e La obtidos pelo método de Pechini são promissores para utilização em Eletrodos de Difusão Gasosa (EDG) visando a eletrogeração in situ de H2O2, visto que apresentam uma tendência a mecanismo via 2 elétrons. / In the present work, the electrocatalytic activity of nanostructured electrocatalysts based on Ru, Ir, Hf or La supported in Printex L6 front of Oxygen Reduction Reaction (ORR) in an acid medium were studied. Initially, the influence of impregnation methods and polymeric precursors (MPP), also known as Pechini for the electrocatalysts RuO2/C and IrO2/C, was analyzed. It was evidenced in this study, that the materials obtained by MPP presented bigger efficiency for H2O2 electrogeneration when compared to the impregnation method. In the following stage, the electrocatalysts HfO2/C and LaONO3/C were prepared only by MPP. The structural properties and surface morphology were investigated by means of the characterization techniques DRX, FRX, TEM, XPS and TG. According to the XRD and TEM data, it was found that the method of metal incorporation in Printex 6L carbon promoted the formation of nanostructured oxides. Moreover, it was verified that the electrocatalysts obtained by Pechini\'s method presented smaller crystallite size (1 to 5 nm), better distribution of the oxides on the carbon matrix (fewer clusters) and smaller particle sizes. The electrochemical behavior of the electrocatalysts were evaluated by linear voltammetry (polarization curves) obtained by rotating ring-disk electrode (RRDE). The results obtained by linear voltammetry, calculations of current efficiency of H2O2 (H2O2 %), total number of exchanged electrons (nt) and of Koutecký-Levich showed that the incorporation of the electrocatalysts (Ru and Ir) in Printex 6L carbon obtained by both methods of synthesis influenced negatively on the electrogeneration of H2O2. In that case, the Ru and Ir electrocatalysts showed a tendency to a 4 electrons mechanism, that is, generation of H2O as final product of the ORR. The results also showed that the electrocatalysts containing higher Hf content, presented higher current efficiency for H2O2 when compared to carbon Printex L6, since that the catalyst containing 15% of Hf presented values of current efficiency for H2O2 around 80% and number of electrons of 2.4. Furthermore, a potential displacement for positive values of approximately 200 mV was also observed which means lower energy consumption in terms of H2O2 electrogeneration. For the La based electrocatalysts, the sample containing 7% showed better current efficiency for H2O2, with values near 87% and number of electrons of 2.3, besides a potential displacement of approximately 250 mV for more values positive. It can be inferred that the Hf and La electrocatalysts obtained by Pechini\'s method are promising for use in Gas Diffusion Electrodes (GDE) aiming in situ electrogeneration of H2O2, since they exhibit a tendency to a mechanism via 2 electrons.

electrocatalysts

eletrocatalisadores

háfnio e lantânio

irídio

Iridium

lanthanum and hafnium

óxidos de rutênio

Oxygen Reduction Reaction (ORR)

Reação de redução de oxigênio (RRO)

ruthenium oxides

Aproveitamento analítico da extratibilidade de sais de fosfônio na separação e determinação de irídio, ródio e ósmio / Analytical use of the extractibility of phosphonium salts in the separation and determination of iridium, rhodium and osmium

Lichtig, Jaim

31 December 1971

A extratibilidade de sais de fosfônio foi aproveitada para elaborar método de separação Ir-Rh, mediante a extração do sal de trifenil n-propil fosfônio do cloro-complexo de Ir(IV,) em clorofórmio. O coeficiente de extração de 99,2%, permite retirar o irídio do meio aquoso com grande eficiência. O irídio assim separado é determinado diretamente, por via espectrofotométrica, em 494 mµ, em faixa de concentração de 5,0 a 50,0 µg/ml. Pd(II), Pt(IV) e Os(IV) interferem e são eliminados previamente, assim como Au(III). Os ânions interferentes, I-, Br- e SCN- são também eliminados previamente. Muitos íons podem estar presentes, tais como Co(II),Cu(II), Mn(II), Fe(III), Ni(II), As(V), Sb(V), NO3-, ClO4- e SO4--. Após a separação do Ir (IV), o Rh(III) que permanece, na solução é complexado com íons azoteto e extraído em clorofórmio depois de precipitado com íons trifenil n-propil fosfônio, sendo o coeficiente de extração de 98,3%. A determinação ê também feita no próprio solvente, mediante medida espectrofotométrica em 404-408 mµ, para um intervalo de concentração de . 10,0 a 70,0 µg/ml. Uma separação envolvendo Os(IV), Pd(II)e Pt(IV) foi elaborada, eliminando-se Pd(II) e Pt(IV) por extração de ambos em metil n-butil cetona a partir de uma solução contendo SCN-. O Os(IV) é determinado na solução aquosa na forma de OsC16-- por medida espectrofotométrica em 370 mµ, válida para a faixa de concentração de 2,0 a 20,0 µg/m1. / Abstract not available.

Extração com solventes

Fosfônio

Inorganic chemistry

Irídio

Iridium

Metais do grupo da platina

Ósmio

Osmium

Phosphonium

Platinum group metals

Química inorgânica

Rhodium

Ródio

Solvent extraction

Estudo da atividade eletrocatalítica de óxidos nanoestruturados de Ru, Ir, Hf e La visando o estudo da reação de redução de oxigênio (RRO) / Study of electrocatalytic activity of nanostructured oxides of Ru, Ir, Hf and La for the study of the oxygen reduction reaction (ORR)

Jonas Batista Reis

04 September 2015

Neste trabalho foi estudada a atividade eletrocatalítica dos eletrocatalisadores nanoestruturados de Ru, Ir, Hf ou La suportados em carbono Printex 6L frente à Reação de Redução de Oxigênio (RRO) em meio ácido. Inicialmente analisou-se a influência do Método de Impregnação e dos Precursores Poliméricos (MPP), também conhecido como Pechini para os eletrocatalisadores RuO2/C e IrO2/C. Ficou evidente neste estudo, que os materiais obtidos pelo MPP apresentaram uma maior eficiência de corrente para a eletrogeração de H2O2 quando comparado ao método da Impregnação. Na etapa seguinte, os eletrocatalisadores HfO2/C e LaONO3/C foram preparados apenas pelo MPP. As propriedades estruturais, morfológicas e de superfície foram investigadas por meio das técnicas de caracterização DRX, FRX, MET, XPS e TG. De acordo com os dados de DRX e MET, verificou-se que o método de incorporação do metal no carbono Printex 6L favoreceu a formação dos óxidos nanoestruturados. Ademais, foi verificado que os eletrocatalisadores obtidos pelo método de Pechini apresentam menores tamanho de cristalitos (1 a 5 nm), melhor distribuição dos óxidos sobre a matriz de carbono (menos aglomerados) e menores tamanhos de partículas. O comportamento eletroquímico dos eletrocatalisadores foi avaliado através das voltametrias lineares (curvas de polarização) obtidas pelo eletrodo de disco anel rotatório (RRDE). Os resultados obtidos pelas voltametrias lineares, cálculos de eficiência de corrente de H2O2 (H2O2 %), número total de elétrons trocados (nt) e de Koutecký-Levich mostraram que a incorporação dos eletrocatalisadores (Ru e Ir) no carbono Printex 6L obtidos por ambos os métodos de síntese influenciaram negativamente na eletrogeração de H2O2. Neste caso, os eletrocatalisadores de Ru e Ir apresentaram uma tendência ao mecanismo via 4 elétrons, ou seja, geração de H2O como produto final da RRO. Os resultados mostraram ainda que os eletrocatalisadores contendo maiores teores de Hf, apresentaram maiores eficiência de corrente para H2O2 quando comparado ao carbono Printex 6L, uma vez que o catalisador contendo 15 % de Hf apresentou valores de eficiência de corrente de H2O2 próximos a 80 % e número de elétrons de 2,4. Além disso, foi observado também um deslocamento no potencial de aproximadamente 200 mV para valores mais positivos, o que significa um menor consumo energético em termos de eletrogeração de H2O2. Para os eletrocatalisadores à base de La, a amostra contendo 7% apresentou uma melhor eficiência de corrente de H2O2, com valores próximos a 87% e número de elétrons de 2,3, além de um deslocamento do potencial de aproximadamente 250 mV para valores mais positivos. Pode-se inferir então, que os eletrocatalisadores de Hf e La obtidos pelo método de Pechini são promissores para utilização em Eletrodos de Difusão Gasosa (EDG) visando a eletrogeração in situ de H2O2, visto que apresentam uma tendência a mecanismo via 2 elétrons. / In the present work, the electrocatalytic activity of nanostructured electrocatalysts based on Ru, Ir, Hf or La supported in Printex L6 front of Oxygen Reduction Reaction (ORR) in an acid medium were studied. Initially, the influence of impregnation methods and polymeric precursors (MPP), also known as Pechini for the electrocatalysts RuO2/C and IrO2/C, was analyzed. It was evidenced in this study, that the materials obtained by MPP presented bigger efficiency for H2O2 electrogeneration when compared to the impregnation method. In the following stage, the electrocatalysts HfO2/C and LaONO3/C were prepared only by MPP. The structural properties and surface morphology were investigated by means of the characterization techniques DRX, FRX, TEM, XPS and TG. According to the XRD and TEM data, it was found that the method of metal incorporation in Printex 6L carbon promoted the formation of nanostructured oxides. Moreover, it was verified that the electrocatalysts obtained by Pechini\'s method presented smaller crystallite size (1 to 5 nm), better distribution of the oxides on the carbon matrix (fewer clusters) and smaller particle sizes. The electrochemical behavior of the electrocatalysts were evaluated by linear voltammetry (polarization curves) obtained by rotating ring-disk electrode (RRDE). The results obtained by linear voltammetry, calculations of current efficiency of H2O2 (H2O2 %), total number of exchanged electrons (nt) and of Koutecký-Levich showed that the incorporation of the electrocatalysts (Ru and Ir) in Printex 6L carbon obtained by both methods of synthesis influenced negatively on the electrogeneration of H2O2. In that case, the Ru and Ir electrocatalysts showed a tendency to a 4 electrons mechanism, that is, generation of H2O as final product of the ORR. The results also showed that the electrocatalysts containing higher Hf content, presented higher current efficiency for H2O2 when compared to carbon Printex L6, since that the catalyst containing 15% of Hf presented values of current efficiency for H2O2 around 80% and number of electrons of 2.4. Furthermore, a potential displacement for positive values of approximately 200 mV was also observed which means lower energy consumption in terms of H2O2 electrogeneration. For the La based electrocatalysts, the sample containing 7% showed better current efficiency for H2O2, with values near 87% and number of electrons of 2.3, besides a potential displacement of approximately 250 mV for more values positive. It can be inferred that the Hf and La electrocatalysts obtained by Pechini\'s method are promising for use in Gas Diffusion Electrodes (GDE) aiming in situ electrogeneration of H2O2, since they exhibit a tendency to a mechanism via 2 electrons.

eletrocatalisadores

háfnio e lantânio

irídio

óxidos de rutênio

Reação de redução de oxigênio (RRO)

electrocatalysts

Iridium

lanthanum and hafnium

Oxygen Reduction Reaction (ORR)

ruthenium oxides

Impact of Secondary Interactions in Asymmetric Catalysis

Frölander, Anders

January 2007

This thesis deals with secondary interactions in asymmetric catalysis and their impact on the outcome of catalytic reactions. The first part revolves around the metal-catalyzed asymmetric allylic alkylation reaction and how interactions within the catalyst affect the stereochemistry. An OH–Pd hydrogen bond in Pd(0)–π-olefin complexes of hydroxy-containing oxazoline ligands was identified by density functional theory computations and helped to rationalize the contrasting results obtained employing hydroxy- and methoxy-containing ligands in the catalytic reaction. This type of hydrogen bond was further studied in phenanthroline metal complexes. As expected for a hydrogen bond, the strength of the bond was found to increase with increased electron density at the metal and with increased acidity of the hydroxy protons. The second part deals with the use of hydroxy- and methoxy-containing phosphinooxazoline ligands in the rhodium- and iridium-catalyzed asymmetric hydrosilylation reaction. The enantioselectivities obtained were profoundly enhanced upon the addition of silver salts. This phenomenon was explained by an oxygen–metal coordination in the catalytic complexes, which was confirmed by NMR studies of an iridium complex. Interestingly, the rhodium and iridium catalysts nearly serve as pseudo-enantiomers giving products with different absolute configurations. The final part deals with ditopic pyridinobisoxazoline ligands and the application of their metal complexes in asymmetric cyanation reactions. Upon complexation, these ligands provide catalysts with both Lewis acidic and Lewis basic sites, capable of activating both the substrate and the cyanation reagent. Lanthanide and aluminum complexes of these ligands were found to catalyze the addition of the fairly unreactive cyanation reagents ethyl cyanoformate and acetyl cyanide to benzaldehyde, whereas complexes of ligands lacking the Lewis basic coordination sites failed to do so. / QC 20100709

asymmetric catalysis

secondary interaction

hydrogen bond

chiral ligand

allylic alkylation

hydrosilylation

cyanation

pymox

box

PHOX

pybox

palladium

iridium

rhodium

Lewis acid

Lewis base

Organic chemistry

Organisk kemi

The Effect of Volatiles (H2O, Cl and CO2) on the Solubility and Partitioning of Platinum and Iridium in Fluid-Melt Systems

Blaine, Fredrick Allan

January 2010

Volatiles are a fundamental component of the Magmatic-Hydrothermal model of platinum group element (PGE) ore deposition for PGE deposits in layered mafic intrusions such as Bushveld and Stillwater. Volatiles have the potential to complex with PGEs in silicate melts and hydrothermal fluids, increasing PGE solubility; in order to assess the models of PGE ore deposition reliable estimates on the solubilities in the various magmatic phases must be known. However, experimental studies on the solubility and partitioning behaviour of PGEs in mafic magmatic-hydrothermal systems under relevant conditions are sparse, and the data that do exist produce conflicting results and new or adapted experimental methods must be applied to investigate these systems. Experimental results are presented here, investigating the effect of volatiles (i.e. H2O, Cl and CO2) on Pt and Ir solubility in a haplobasaltic melt and fluid-melt partitioning of Pt between an aqueous fluid and a haplobasaltic melt under magmatic conditions using a sealed-capsule technique. Also included are the details of the development of a novel experimental technique to observe fluid-melt partitioning in mafic systems and application of the method to the fluid-melt partition of Pt. Solubility experiments were conducted to assess the effect of volatiles on Pt and Ir solubility in a haplobasaltic melt of dry diopside-anorthite eutectic composition at 1523K and 0.2GPa. Synthetic glass powder of an anhydrous, 1-atm eutectic, diopside-anorthite (An42-Di58) haplobasalt composition was sealed in a platinum or platinum-iridium alloy capsule and was allowed to equilibrate with the noble metal capsule and a source of volatiles (i.e. H2O, H2O-Cl or H2O-CO2) at experimental conditions. All experiments were run in an internally-heated pressure vessel equipped with a rapid quench device, with oxygen fugacity controlled by the water activity and intrinsic hydrogen fugacity of the autoclave (MnO-Mn3O4). The resultant crystal- and bubble-free run product glasses were analyzed using a combination of laser ablation ICP-MS and bulk solution isotope-dilution ICP-MS to determine equilibrium solubilities of Pt and Ir and investigate the formation and contribution of micronuggets to overall bulk determined concentrations. In water-bearing experiments, it was determined that water content did not have an intrinsic effect on Pt or Ir solubility for water contents between 0.9 wt. % and 4.4 wt. % (saturation). Water content controlled the oxygen fugacity of the experiment and the resulting variations in oxygen fugacity, and the corresponding solubilities of Pt and Ir, indicate that over geologically relevant conditions both Pt and Ir are dissolved primarily in the 2+ valence state. Pt data suggest minor influence of Pt4+ at higher oxygen fugacities; however, there is no evidence of higher valence states for Ir. The ability of the sealed capsule technique to produce micronugget-free run product glasses in water-only experiments, allowed the solubility of Pt to be determined in hydrous haplobasalt at lower oxygen fugacities (and concentrations) then was previously observed. Pt and Ir solubility can be represented as a function of oxygen fugacity (bars) by the following equations: [Pt](ppb)= 1389(fO-sub-2)+7531(fO-sub-2)^(1/2) [Ir](ppb)=17140(fO-sub-2)^(1/2) In Cl-bearing experiments, experimental products from short run duration (<96hrs) experiments contained numerous micronuggets, preventing accurate determination of platinum and iridium solubility. Longer run duration experiments showed decreasing amounts of micronuggets, allowing accurate determination of solubility; results indicate that under the conditions studied chlorine has no discernable effect on Pt solubility in the silicate melt from 0.6 to 2.75 wt. % Cl (saturation). Over the same conditions, a systematic increase in Ir solubility is found with increasing Cl content; however, the observed increase is within the analytical variation/error and is therefore not conclusive. If there is an effect of Cl on PGE solubility the effect is minor resulting in increased Ir solubilities of 60% at chlorine saturation. However, the abundance of micronuggets in short run duration experiments, which decreases in abundance with time and increases with Cl-content, offers compelling evidence that Cl-bearing fluids have the capacity to transport significant amounts of Pt and Ir under magmatic conditions. It is suggested that platinum and iridium dissolved within the Cl-bearing fluid are left behind as the fluid dissolves into the melt during the heating stages of the experiment, leaving small amounts of Pt and Ir along the former particle boundaries. With increasing run duration, the metal migrates back to the capsule walls decreasing the amount of micronuggets contained within the glass. Estimates based on this model, using mass-balance calculations on the excess amount of Pt and Ir in the run product glasses (i.e. above equilibrium solubility) in short duration experiments, indicate estimated Pt and Ir concentrations in the Cl-bearing fluid ranging from tens to a few hundred ppm, versus ppb levels in the melt. Respective apparent (equilibrium has not been established) partition coefficients (D,fluid-melt) of 1x10^3 to 4x10^3 and 300-1100 were determined for Pt and Ir in Cl-bearing fluids; suggesting that Cl-bearing fluids can be highly efficient at enriching and transporting PGE in mafic magmatic-hydrothermal ore-forming systems. Platinum solubility was also determined as a function of CO2 content in a hydrous haplobasalt at controlled oxygen fugacity. Using the same sealed capsule techniques and melt composition as for H2O and Cl, a hydrous haplobasaltic melt was allowed to equilibrate with the platinum capsule and a CO2-source (CaCO3 or silver oxalate) at 1523 K and 0.2 GPa. Experiments were conducted with a water content of approximately 1 wt. %, fixing the log oxygen fugacity (bars) between -5.3 and -6.1 (log NNO = -6.95 @ 1573 K and 0.2 GPa). Carbon dioxide contents in the run product glasses ranged from 800-2500 ppm; and over these conditions, CO2 was found to have a negligible effect on Pt solubility in the silicate melt. Analogous to the Cl-bearing experiments, bulk concentrations of Pt in CO2-bearing experiments increased with increasing CO2 content due to micronugget formation. Apparent Pt concentrations in the H2O-CO2 fluid phase, prior to fluid dissolution, were calculated to be 1.6 to 42 ppm, resulting in apparent partition coefficients(D,fluid-melt) of 1.5 x 10^2 to 4.2 x 10^3, increasing with increasing mol CO2:H2O up to approximately 0.15, after which increasing CO2 content does not further increase partitioning. As well, a novel technique was developed and applied to assess the partitioning of Pt between an aqueous fluid and a hydrous diopside-anorthite melt under magmatic conditions. Building upon the sealed-capsule technique utilized for solubility studies, a method was developed by adding a seed crystal to the capsule along with a silicate melt and fluid. By generating conditions favourable to crystal growth, and growing the crystal from the fluid, it is possible to entrap fluid inclusions in the growing crystal, allowing direct sampling of the fluid phase at the conditions of the experiment. Using a diopside seed crystal with the diopside-anorthite eutectic melt, it was possible to control diopside crystallization by controlling the temperature, thus allowing control of the crystallization and fluid inclusion entrapment conditions. Subsequent laser ablation ICP-MS analysis of the fluid inclusions allowed fluid–melt partition coefficients of Pt to be determined. Synthetic glass powder of an anhydrous, 1-atm eutectic, diopside-anorthite (An42¬Di58) haplobasalt composition (with ppm levels of Ba, Cs, Sr and Rb added as internal standards), water and a diopside seed crystal were sealed in a platinum capsule and were allowed to equilibrate at experimental conditions. Water was added in amounts to maintain a free fluid phase throughout the experiment, and the diopside crystal was separated from the melt. All experiments were run in an internally heated pressure vessel equipped with a rapid-quench device, with oxygen fugacity controlled by the water activity and intrinsic hydrogen fugacity of the autoclave (MnO-Mn3O4). Experiments were allowed to equilibrate (6-48 hrs) at experimental conditions (i.e. 1498K, 0.2 GPa, fluid+melt+diopside stable) before temperature was dropped (i.e. to 1483K) to induce crystallization. Crystals were allowed to grow for a period of 18-61 hours, prior to rapid isobaric quenching to 293K at the conclusion of the experiment. Experimental run products were a crystal- and bubble-free glass and the diopside seed crystal with a fluid-inclusion-bearing overgrowth. Analysis of fluid inclusions provides initial solubility estimates of Pt in a H2O fluid phase at 1488 K and 0.2 GPa at or near ppm levels and fluid melt partition coefficients ranging from 2 – 48. This indicates substantial metal enrichment in the fluid phase in the absence of major ligands such as carbonate or chlorine. The results of this study indicate that the volatiles studied (i.e. H2O, CO2, and Cl) do not have a significant effect on Pt and Ir solubility in a haplobasaltic melt at magmatic conditions. These results suggest that complexing of Pt and Ir by OH, Cl, and carbonate species in a haplobasaltic melt is insignificant and the presence of these volatiles will not result in significantly increased PGE contents over their dry counterparts, as has been suggested. Preliminary evidence of minor Cl-complexing of Ir is presented; however, resulting in only a slight increase (<100%) in Ir solubility at Cl-saturation. Significant partitioning of Pt and Ir into a fluid phase at magmatic conditions has been demonstrated; with estimates of fluid-haplobasaltic melt partition coefficients increasing from 1x10^1 for pure water to up to an apparent 4x10^3 with the addition of Cl or CO2 to the system. This result indicates complexing of Pt and Ir with OH< HxCOy≤ Cl. Using these estimates, Cl- or CO2-bearing magmatic fluids can be highly efficient at enriching and transporting platinum group elements (PGEs) in mafic magmatic-hydrothermal ore-forming systems.

PGE

Partitioning

Fluid-melt

Platinum

Iridium

Basalt

Cl

CO2

Water

Bushveld

Stillwater

Magmatic-hydrothermal model

R-factor model

fluids

Earth Sciences

Poly(norbornene) supported side-chain coordination complexes: an efficient route to functionalized polymers

Carlise, Joseph Raymond

11 April 2006

This thesis begins with a brief overview of current strategies used in the synthesis of side-chain functionalizad polymers and materials. The discussion then focuses more explicitly on transition metal-based motifs and methodologies that are employed in polymer functionalization and continues with a more detailed overview of this field. The primary hypothesis that is addressed herein is that combining the versatility and strength of metal-ligand interactions with the efficiency and functional group tolerance of ROMP comprises a useful method of generating a variety of functionalized polymers and materials via side-chain metal coordination. Thus, the goal is to test this hypothesis by synthesizing functionalized polymers with a range of useful properties to demonstrate the relevance and importance of this methodology, by employing several different strategies to show the synthetic ease by which the materials can be realized. The strategies and methods discussed in the synthesis of side-chain functionalized polymers are divided into three subgroups: (1) pre-polymerization functionalization, in which all of the modifications take place on the monomer with polymerization as the last step, (2) post-polymerization functionalization, in which the polymer itself is subsequently modified, and (3) combinations of the first two strategies. It is shown that useful functional polymers and materials can be synthesized by any of the above strategies, and representative examples of each are given in both the introduction and in the body of work presented. Modes of functionalization are all based on transition metal coordination, and polymerizations are primarily carried out via ROMP. Metal coordination is shown to be a useful technique for functionalizing polymers, to creating supported emissive complexes, to modulating solution viscosity. Finally, conclusions are drawn regarding the various strategies presented herein, and potential future directions are discussed.

ATRP

Bipyridine

Chelation

Copolymers

Functional materials

Graft

Guar

Hydrolysis

Iridium

Ligands

Luminescent polymers

OLED

Photoluminescence

Photoluminescent

Polymerization

Polymers synthesis

ROMP

Ruthenium

Transition metal

Transition metal complexes

Viscosity

Theoretical characterization of the charge-transport and electroluminescence properties of pi-conjugated organic materials

Salman, Seyhan

22 June 2009

The structural, electronic, and optical properties of a series of organic pi-conjugated polymer, oligomer, or molecular materials of interest for applications in organic electronics are described. For this purpose, quantum-chemical techniques ranging from Density Functional Theory to Hartree-Fock ab initio and semiempirical methods are used to evaluate the charge-transport, charge-transfer, and electroluminescence properties of pi-conjugated organic materials. First, the effect of electronic polarization on the charge-transport parameters of organic semiconductors is discussed. A generalized methodology based on a basis set orthogonalization procedure is developed to determine reliable charge-transport characteristics. The charge-transport parameters of a number of organic semiconductors such as oligoacenes and derivatives are studied with this methodology. Then, triplet emitters, in particular iridium complexes, that achieve high efficiency electroluminescence in organic light-emitting diodes are discussed. The effects of ligand substitution and orientation on the luminescent properties of iridium compounds are investigated in order to develop structure-properties relationships. The emission properties of these complexes are found to be governed by an interplay between metal-to-ligand charge transfer excitations and ligand-centered and/or interligand excitations. The extent of mixing of these various excitations turns out to be highly dependent on the nature of the substituents. Design strategies to shift the emission color towards deep blue are proposed. Finally, several classes of materials acting as hosts for phosphorescent emitters are studied. It is shown that restricting the conjugation length leads to high energy gap host materials suitable for blue phosphorescent emitters.

Metallocenes

Fused oligomers

Triscarbazoles

Modelling

Phosphorescence

OLED

Phosphine oxides

Excited states

Oxadiazoles

Iridium complexes

Solvent effects

Quantum chemistry

Organic semiconductors

Charge transfer

Organometallic compounds