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INVESTIGATION OF THE ASSEMBLY OF SURFACTANTS AT THE SOLID-LIQID INTERFACE FOR ADSORPTION AND MATERIALS APPLICATIONSXing, Rong 01 January 2007 (has links)
This dissertation addresses two topics associated with the assembly of surfactants at the solid-liquid interface for adsorption and materials synthesis. The first is the adsorption of an anionic fluorinated surfactant, tetraethylammonium perfluorooctylsulfonate (TEA-FOS), at the solid/liquid interface. Attenuated total reflection Fourier transform infrared spectroscopy is used to study the adsorption kinetics and average orientation of surfactants at the hydroxylated germanium surface. Atomic force microscopy provides complementary images of the adsorbed layer structure on mica. The adsorption follows unusual three-stage kinetics in which the rate of adsorption starts fast, slows as the surface becomes crowded, and then (surprisingly) accelerates due to nucleation of a heterogeneous multilayer structure. These fast-slow-fast three stage adsorption kinetics are observed for a wide range of concentrations at pH 6, and the rates of the three stages are modulated by pH and salt by tuning electrostatic interactions among surfactants, counterions, and the surface. The results suggest that tetraethylammonium mediates interactions between surfactants and with negatively charged surfaces. The dichroism measurements and AFM are consistent with a mechanism in which TEA-FOS first forms an incomplete layer with chains oriented randomly or somewhat parallel to the surface, followed by formation of flattened multilayer clusters with the chains oriented somewhat normal to the substrate. The second topic is the sol-gel synthesis of mesoporous silica materials using dual surfactant templates. Studies of templating with mixed cetyltrimethylammonium bromide and octyl-beta-D-glucopyranoside surfactants shows that the ternary phase diagram of surfactants in water can be used to predict mesoporous materials structure, and that vapor-phase ammonia treatments can either stabilize the structure or induce swelling by the Maillard reaction. Studies of sol-gel reaction-induced precipitation with demixed hydrocarbon and fluorocarbon cationic surfactant micelles show a wide variety of pore structures. A number of synthesis parameters are adjusted to tune the pore structure, for instance to adjust the size and populations of bimodal mesopores. Selective swelling of the two surfactants by liphophilic and fluorophilic solvents is observed. Finally, proteinaccessible hollow spherical silica particles with mesoporous shells are reported. The methods for engineering mesoporous materials reported here have potential applications in adsorption, controlled drug delivery and for catalysis.
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Synthèse avancée de matériaux hybrides pHEMA-TiO₂ par méthode sol-gel et polymérisation induite par hautes pressions, analyse de leurs propriétés optiques / Advanced synthesis of poly-(2-hydroxyethyl)methacrylate)-titanium dioxide (pHEMA-TiO₂) hybrid materials by sol-gel and HP induced polymerization methods and analysis of their optical propertiesEvlyukhin, Egor 03 December 2015 (has links)
Les propriétés fonctionnelles spécifiques des matériaux hybrides organique-inorganique dépendent de leur structure à l’échelle microscopique ainsi que de la nature de l’interface entre leurs composantes organique et inorganique. L’une des voies principales pour synthétiser ces matériaux, consiste à incorporer des blocs inorganiques à l’intérieur d’un polymère. En pratique les applications des matériaux hybrides sont souvent limitées par leur comportement mécanique. En effet, l’augmentation de la concentration de la composante inorganique, à priori souhaitable pour améliorer les propriétés fonctionnelles du matériau, entraine généralement une dégradation des propriétés mécaniques en limitant l’étendue de la polymérisation de la phase organique. La fabrication de matériaux hybrides offrant une combinaison optimale des propriétés mécaniques et fonctionnelles est un problème important auquel nous apportons quelques éléments de réponses dans cette thèse. Pour cela nous démontrons et étudions une nouvelle approche pour la synthèse de matériaux hybrides photosensibles pHEMA-TiO₂ (pHEMA=poly-(2-hydroxyéthyl)méthacrylate) dans lesquels des nanoparticules inorganiques sont dispersées dans un polymère. Le procédé que nous proposons est basé sur l’utilisation de hautes pressions (HP)pour provoquer la polymérisation de la phase organique en l’absence de tout initiateur chimique. Nous avons d’abord observé la polymérisation spontanée du HEMA sous pression statique. La réaction se produit dans un domaine de pression limitée 0.1-1.6 GPa, en dessous du seuil de transition vitreuse, et est très peu efficace puisque le taux de conversion des monomères n’excède pas 28 % après 41 jours. La réaction peut cependant être considérablement accélérée lorsque l’échantillon sous pression est irradié dans le domaine UV. Nous avons montré que cela résultait de l’excitation à un photon de l’état triplet HEMA (T1) rendue possible par la modification de la structure électronique du HEMA sous HP. Cette méthode ne pouvant être utilisée pour la synthèse de matériaux photosensibles dans le domaine UV, nous avons développé une approche originale basée un cycle de compression-décompression. Lors de la phase de compression (> 6.5 GPa) des biradicaux (HEMA)₂ sont formés à partir de monomères excités HEMA (T1). À cette pression les contraintes stériques empêchent la formation de plus longs oligomères. La polymérisation ne se produit que dans une seconde étape lorsque l’échantillon, décompressé entre 0.1 et 2 GPa, est en phase liquide. Le taux de conversion des monomères dépasse alors 90 % en moins de 5 min. Les mesures de chromatographie d’exclusion stérique montrent la formation de longues chaines polymère (45000g/mol) et soulignent l’absence des dimères (HEMA)₂ ayant servis d’initiateurs de polymérisation. Cette seconde méthode de polymérisation s’est révélée extrêmement efficace pour synthétiser des hybrides pHEMA-TiO₂. Par rapport aux hybrides obtenus par voie classique à pression atmosphérique en utilisant des initiateurs de polymérisation thermique ou photonique, l’approche HP mise au point dans cette thèse permet de multiplier par un facteur trois la concentration de nanoparticules sans détériorer l’état de polymérisation de matériau. La sensibilité photonique des hybrides est ainsi augmentée sans dégradation des propriétés mécaniques. L’étude des propriétés photochromiques des hybrides montre que le rendement quantique de séparation des charges photo-induites et la capacité de stockage des électrons atteignent respectivement 15 % et 50% / The specific functional properties of the organic-inorganic hybrid materials depend on their microstructure and the nature of the interface between their organic and inorganic components. The production of hybrid materials with an optimum combination of mechanical and functional properties is a major problem in hybrid materials science. In this thesis we adress this issue by studing and proposing a new approach for synthesizing of photosensitive pHEMA-TiO₂ hybrid materials in wich inorganic nanoparticles are dispersed in a polymer. The method that we propose is based on the high pressure (HP) induced polymerization of the organic phase in the absence of a chemical initiator. We first observed the spontaneous polymerization of HEMA under static pressure. The polimerization process takes place in pressure range below the glass transition point (0.1-1.6 GPa) and after 41 days monomer conversion yield (CY) does not exceed 28%. The reaction may be significantly accelerated when the pressurized sample is irradiated in the UV range. We then developed an original approach based on compression-decompression cycle. During the compression step (>6.5 GPa) the biradicals formed from the excited monomers HEMA (T1) lead to the formation of small oligomers. The polimerization occurs in the second step when the sample decompressed at pressures between 0.1 and 2 GPa. The CY of 90% in less than 5 min is achieved. The new HP approach allows multiply by a factor of 3 the contration of nanoparticles in hybrids without damaging of their polimerization state. These hybrids exhibit a quantum efficiency of photoinduced charge separation of 15% and an electron storage capacity of 50%.
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Passive Alignment of Buried Optical Waveguide and Single Mode Fiber on the Silicon BenchHung, Sheng-Feng 15 June 2005 (has links)
The objective of this thesis is to integrate the optical waveguide and single mode fiber in a passive alignment way on a silicon bench. This technique can reduce the complexity of packaging the individual components and increase yield of the module in order to achieve the goal of the mass production. In this module, buried waveguide structure was used for light guidance. A 1.31µm semiconductor laser was used as the input light source. Light signal launched by semiconductor laser is transferred through the buried waveguide into the single mode fiber.
This module structure is consisted of two major parts, namely, the buried waveguide and the silicon bench. Buried optical Waveguide uses SO2 as the bottom cladding. Conventional photolithography procedures and etching technique were used to form a trench on the SiO2 cladding. The waveguide core was fabricated by coating the organic-inorganic hybrid materials into the trench. Finally, an organic-inorganic hybrid materials with a refractive index smaller than that of the core is used as the top cladding. The silicon benches were obtained by etching V-groove and saw-cutting U-groove on the silicon substrates for fixing the fiber. The patterning of buried waveguide and silicon V-groove were fabricated by a single optical mask procedure. Therefore accurate alignment between the waveguide and the single mode fiber can be obtained.
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Isocyanate Functionalization Of Nano-boehmite For The Synthesis Of Polyurethane Organic-inorganic Hybrid MaterialsEroglu, Gulden 01 February 2011 (has links) (PDF)
In this study, organic-inorganic hybrid materials were prepared from polyurethane and boehmite. It was achieved by polymerizing monomers in the presence of functional nano-particles of boehmite with cyanate groups. The produced polyurethane organic-inorganic hybrid materials with enhanced mechanical properties were used for coating applications. Plate-like boehmite nano-particles were produced by hydrothermal process from aluminum hydroxide which was first ground in a high energy ball-mill, and then, processed hydrothermally under pressure and high temperature in a reactor. The surface morphology and crystal structure of boehmite were investigated by Scanning Electron Microscopy and X-Ray Diffraction analyses, respectively. The molecular structures of boehmite particles were investigated by Fourier Transform infrared spectroscopy. Furthermore, Brunauer-Emmett-Teller analysis and Photon Correlation Spectroscopy analysis were carried out to determine the surface area and the size of particles. Then, plate-like boehmite nano-particles were functionalized by the reaction of their hydroxyl groups with 1,6-hexamethylene diisocyanate and 4,4&rsquo / -methylene diphenyl diisocyanate. Scanning Electron Microscopy, Fourier Transform Infrared Spectroscopy, Differential Thermal Analysis-Thermal Gravimetric Analysis, and elemental analysis were performed for both functionalized and non-functionalized particles to confirm the functionalization of the particles. The polyester polyol used in the production of polyurethane was synthesized from 1,4-butanediol and adipic acid (PE-PO-1), and phthalic anhydride (PE-PO-2). Molecular structure of the polyester polyols was confirmed by Fourier Transform Infrared Spectroscopy analysis and molecular weight of the polymers were determined by end group analysis. Then, the produced functionalized nano-particles and polyester polyols were used for producing polyurethane organic-inorganic hybrid materials. Furthermore, polyurethane polymer and polymer-nonfunctionalized boehmite organic-inorganic hybrids were also synthesized for property comparison. Hardness, impact resistance, scratch resistance, abrasion resistance, and gloss property of the samples were determined.
It was observed that mechanical properties of organic-inorganic hybrid materials improved significantly. The hardness of the PU produced with PE-PO-1 increased from 82 to 98 Persoz, and the hardness of the PU produced with PE-PO-2 increased from 52 to 78 Persoz when one weight percentage functionalized boehmite was used. The impact resistance of the coatings was found to depend on the type of the polyols used in PU but not in the inorganic component. Therefore PE-PO-2 used PU has higher impact resistance than PE-PO-1 used PU. Scratch resistance of the coatings improved from 2B to 2H when using functionalized boehmite. Abrasion resistance of PUs produced with PE-PO-1 increased from 2 to 10 l/micrometer and abrasion resistance of PUs produced with PE-PO-2 increased from 12 to 20 l/micrometer by addition of functionalized boehmite.
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Organic-inorganic hybrid graft copolymers of polystyrene and polydimethylsiloxaneSutherland, Aimee Celeste 03 1900 (has links)
Thesis (MSc (Chemistry and Polymer Science))--University of Stellenbosch, 2010. / ENGLISH ABSTRACT:
Hybrid graft copolymers of polystyrene (PSty) and polydimethylsiloxane macromonomers (PDMS)
were synthesised. PSty-g-PDMS was synthesised employing the grafting through technique via a
conventionally free radical polymerization (FRP) using a polydimethylsiloxane macromonomer. In
this series the amount of PDMS incorporated into the copolymer was varied by varying the
macromonomer to styrene ratios as well as the length of the PDMS side chain. This allows for the
study of the effect that the macromonomer content and the branching length has on the efficiency
of the grafting process. A second series of PDMS-g-PSty was also synthesized where the PDMS
forms the backbone and the PSty the grafts. Two synthetic techniques were employed for the
formation of these polymers. Firstly, the grafting onto approach was used where functional
polystyrene prepolymers with either an allyl or vinyl end-groups were synthesised anionically
(living anionic polymerization) prior to the coupling of a functional prepolymer using a
hydrosilylation reaction with a Karstedt platinum catalyst. This technique was successful and gave
insight to the effect of the polystyrene prepolymer graft length has on the grafting efficiency as well
as the functional groups needed on the PDMS backbone. Furthermore, the effect of the viscosity
(of the PDMS macromonomer) plays on the grafting efficiency was also elucidated. Lastly, the
grafting from approach was employed for the formation of PDMS-g-PSty. ATRP, atom transfer
radical polymerization, of styrene using a bromoisobutyrate functional PDMS macroinitiator was
used for the synthesis of these copolymers. This was accomplished by reacting commercial silane
functional PDMS molecules via a hydrosilylation reaction (using a Karstedt catalyst) with allyl-2-
bromo-2-methyl-propionate to give a PDMS macroinitiator with bromoisobutyrate functional
groups. This will allow for the initiation and growth of polystyrene branches from the PDMS
backbone (employing ATRP with a suitable catalyst and ligand). The formation of the endproduct,
PDMS-g-PSty, via this route proved to be extremely difficult and largely unsuccessful.
Liquid chromatography (LC) at the critical point (LCCC) of polystyrene was used to separate the
graft material from homo-polymers which might have formed as well as from the PDMS
macromonomer. This technique allows for a very fast chromatographic analysis of the grafting
reaction. Under the critical conditions of PSty it was found that the graft copolymer eluted at a
lower retention time than the unreacted macromonomer and PSty homopolymer. Two-dimensional
chromatography, where LCCC (1st dimension) was coupled to size exclusion chromatography (2nd
dimension), was used for the evaluation of the CCD and MMD (molecular mass distribution) of the
graft material. LC was furthermore coupled off-line to FTIR and TEM using an LC interface. LCFTIR
gave insight to the microstructure of the material, whilst LC-TEM gave insight to the
morphological nanostructure of the material. / AFRIKAANSE OPSOMMING:
Hibried ent-kopolimere is gesintetiseer uit polistireen (PSty) en polidimetielsiloksaan (PDMS).
PSty-g-PDMS is gesintetiseer deur gebruik te maak van die ent-deur tegniek via ‘n konvensionele
vrye radikaal polimerisasie proses (VRP). In die reeks is die hoeveelheid PDMS wat geïnkorporeer
is, gevarieer deur die hoeveelheid PDMS tot PSty verhouding te verander asook die lengte van die
PDMS sytak. Gevolglik het dit toegelaat vir die studie van die effek wat die makromonomeer
inhoud, sowel as die taklengte het op die effektiwiteit van die ent-proses. ‘n Tweede reeks is ook
gesintetiseer, waar die PDMS die ruggraat vorm van die ko-polimeer, en die stireen die takke vorm
van die ko-polimeer. Dus is PDMS-g-PSty gesintetiseer. Twee sintetiese tegnieke is benut vir die
vorming van die kopolimere. In die eerste geval is daar van die ent-op tegniek gebruik gemaak
waar funksionele polistireen prepolimere met ‘n alliel of ‘n silaan end-groep gesintetiseer is deur
gebruik te maak van ‘n anioniese lewendige polimerisasie voor die koppeling van die PDMS
makromonomere deur ‘n hidrosililasie proses met ‘n Karstedt platinum katalisator. Die tegniek
was suksesvol en het in diepte insig gegee van die effek wat die molekulêre lengte van die
polistireen prepolimeer het op die effektiwiteit van die ent-proses, sowel as die minimum
hoeveelheid funksionele groepe wat teenwoordig moet wees op die PDMS ruggraat. Verder is die
effek wat die viskositeit (van die PDMS makromonomeer) op die ent-proses het, bekend gemaak.
Laastens is daar ook van die ent-vanaf tegniek gebruik gemaak vir die vorming van PDMS-g-PSty.
AORP, atoom oordrag radikale polimerisasie, van stireen, deur gebruik te maak van ‘n
bromoisobutiraat funksionele PDMS makro-inisieerder, is gebruik vir die sintese van die
kopolimere. Die makro-inisieerders is bekom deur gebruik te maak van kommersiële silaan
funksionele PDMS, en dit is gereageer deur middel van ‘n hidrosililasie proses met alliel-2-bromo-
2-metiel-propionaat. Dit het PDMS makroinisieerders tot gevolg gehad met bromoisobutiraat
funksionele groepe. Gevolglik kon stireen takke vanaf die PDMS ruggraat gegroei word deur
gebruik te maak van AORP met ‘n geskikte katalisator en ligand. Die vorming van die end-produk,
PDMS-g-PSty, deur middel van hierdie roete was onsuksesvol. Vloeistof chromatografie by die
kritiese punt van polistireen was gebruik om die ent-produk te skei van die homo-polimere en
PDMS makromonomeer. Gevolglik kon die chemiese samestelling van die ent-produk geëvalueer
word. Twee-dimensionele chromatografie, waar vloeistof chromatografie by die kritiese punt van
polistireen in die eerste vlak gekoppel was aan grootte uitsluitings chromatografie in die tweede
vlak, was benut om die chemiese komposisie sowel as die molekul re massa verdeling van die entproduk
te verkry. Verder was vloeistof chromatografie indirek aan Fourier-oordrag infrarooi en
transmissie elektron mikroskopie (TEM) gekoppel. Eergenoemde het insig gegee tot die
mikrostruktuur van die materiaal, terwyl laasgenoemde insig gegee het tot die morfologiese
nanostruktuur van die materiaal.
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Preparação e caracterização de compósitos com matriz de poliuretano e híbridos fibrosos modificados com óxido de magnésio hidratado / Preparation and characterization of polyurethane based composites with hybrid fibrous modified by hydrous magnesium oxideCarvalho, Thaís 02 December 2016 (has links)
A versatilidade das espumas poliuretanas permite sua aplicação em inúmeros setores industriais, devido à possibilidade de se obter diferentes conjuntos de propriedades apenas alterando sua formulação básica. Um tipo recorrente de alteração é a incorporação de diferentes tipos de fibras em matrizes de poliuretano, vastamente estudada com o objetivo de gerar materiais compósitos com melhores propriedades mecânicas do que a matriz original. Inúmeros autores reportaram a utilização de celulose cristalina como uma alternativa renovável aos agentes de reforço e revelaram que a celulose utilizada como aditivo em matrizes poliméricas afetou as propriedades mecânicas da matriz original e, em menor escala, exerceu influência sobre a estabilidade térmica do compósito. O presente trabalho dedicou-se a isolar a celulose cristalina contida nas fibras de bananeira mediante tratamento com ácido acético concentrado. Os tratamentos químicos são necessários para modificar a superfície do material e melhorar a adesão do agente de reforço à matriz. Tendo em vista os resultados associados à estabilidade térmica dos compósitos de poliuretano reforçados com celulose, buscou-se sintetizar materiais híbridos de celulose e MgO.nH2O. Foi observado que, mesmo em pequenas quantidades, a presença do óxido hidratado de magnésio afetou significativamente a estabilidade térmica do HB 98:2. Estudos térmicos indicam que os materiais compósitos estudados apresentaram comportamento semelhante ao da matriz PU. Estudos das propriedades compressivas dos materiais poliméricos gerados mostraram que a incorporação do HB 98:2 ao PU afetou positivamente as propriedades mecânicas do material, sendo que o compósito PU + 1 HB 98:2 apresentou desempenho mecânico superior ao da matriz pura. / The versatility of polyurethanes foams allows its application in numerous industries because of the possibility of obtaining different sets of properties just by changing its basic formulation. A recurrent type of modification is the incorporation of different types of fibers in polyurethane matrices widely studied with the objective of generating composite materials with better mechanical properties than the original matrix. Numerous authors have reported the use of crystalline cellulose as a renewable alternative to fillers and showed that the cellulose used as additive in polymer matrices affect the mechanical properties of the original matrix and, to a lesser extent, influence upon thermal stability of the composite. This work was dedicated to isolate the crystalline cellulose contained in banana fibers by treatment with concentrated acetic acid. The chemical treatments are needed to modify the surface of the material and improve adhesion of the filler to the matrix. In view of the results associated with the thermal stability of the composite polyurethane reinforced with cellulose, sought to synthesize hybrid materials cellulose and MgO.nH2O. It has been observed that even in small quantities, the presence of hydrated magnesium oxide significantly affect the thermal stability of HB 98: 2. thermal studies indicate that the studied composites showed similar behavior to the PU matrix. Studies of the compressive properties of polymeric materials generated showed that the incorporation of HB 98: 2 to PU positively affect the mechanical properties of the material, and the composite PU + HB 98 1: 2 had mechanical performance superior to that of pure matrix.
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Sn0.9In0.1P2O7-Based Organic/Inorganic Composite Membranes : Application to Intermediate-Temperature Fuel CellsHibino, Takashi, Tomita, Atsuko, Sano, Mitsuru, Kamiya, Toshio, Nagao, Masahiro, Heo, Pilwon January 2007 (has links)
No description available.
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Organically-Templated Open-Framework And Hybrid MaterialsBehera, Jogendra Nath 12 1900 (has links)
Open-framework inorganic and inorganic-organic hybrid materials constitute an important area of study in materials chemistry, because of their potential applications in areas such as sorption and catalysis. Besides aluminosilicate zeolites, the metal phosphates and carboxylates constitute large families of open-framework structures. The possibility of building open architectures with the sulfate and selenate anions as the basic building units has been explored in this thesis. Investigations of a variety of open-framework metal sulfates and selenates, as well as a family of jarosites of different transition metals are
presented. More importantly, studies directed towards the synthesis and understanding of the magnetic properties of various Kagome compounds formed by the transition metal ions is discussed at length.
After providing an introduction to inorganic open-framework compounds (Part 1), the thesis presents the results of the investigations of various transition and rare earth metal sulfates with diverse structures and dimensionalities in Part 2. Some of these compounds show interesting properties. For example, a two-dimensional Ni(II) sulfate exhibits ferrimagnetism whereas a three-dimensional Ni(II) sulfate with 10-membered channels is paramagnetic. A family of three-dimensional co-ordination polymers of Co(II) sulfate wherein the Co(II) sulfate layers are linked by diaminoalkanes of varying chain length has been synthesized and characterized. Organically-templated neodymium and thorium sulfates with layered and three-dimensional structure have also been prepared.
The jarosite family of compounds with the Kagome structure is considered as an
ideal model for studying frustrated magnetism. This type of materials, however, is difficult to prepare in a pure and highly crystalline form. We have synthesized analogues of the jarosite containing magnetic ions other than Fe3+ by solvothermal techniques and discussed them in Part 3. In particular, we have prepared and explored the magnetic properties of Mn2+(S = 5/2), Fe2+ (S = 2), Co2+(S = 3/2) and Ni2+ (S = 1) jarosites. Based on the results presented, it becomes clear that the magnetic properties vary with the spin of the transition metal ion. It appears that those Kagome compounds with transition metalions with non-integer spins show antiferromagnetic interactions and magnetic frustration while those with integer spins exhibit ferro/ferrimagnetic properties. A theoretical study has also supports this observation. We have been able to isolate for the first time 1,4-diazacubane as the part of the structure of the nickel Kagome compound.
The possibility of building open architectures with the selenate anion as the basic building unit has been explored in Part 4. The results have been rewarding and an organically-templated three-dimensional lanthanum selenate with 12-membered channels
has thus been obtained for the first time.
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Synthesis and Characterization of Multifunctional Organic/ inorganic Hybrid Materials obtained by the "wet chemistry" approachKammoe, Astride Lorette 30 July 2015 (has links) (PDF)
Die vorliegende Arbeit fokussiert auf die Synthese von organisch/anorganischen Hybridmaterialien mit multifunktionalen Eigenschaften unter ausschliesslicher Darstellung dieser Materialen mit Hilfe des „wet chemistry“ Zugangs. Ausgehend von der Darstellung und Charakterisierung von isomorphen bzw. isostrukturellen Hybridmaterialien der allgemeinen Zusammensetzung catena-{[Me3NH][MCl3·2H2O]}n (Mtac) (MII = Mn, Co, Ni, Cu, tac = [Me3NH]Cl3·2H2O]) speziell mittels IR und UV/vis Spektroskopie ist beschrieben, wie sich aus diesen entsprechende bi-, tri-, und auch tetra-heterometallische Koordinationspolymere der allgemeinen Zusammenseztung {MxM´ytac}n, {MxM´yM´´ztac}n, {MxM´yM´´zM´´´ttac}n (MII = M ≠ M´≠ M´´≠ M´´´≠ M´´´´ und x, y, z, t als prozentualer Metallgehalt) herstellen lassen und welche limitierende Faktoren zu berücksichtigen sind. Leifähigkeitsmessungen an Einkristallen ausgewählter Koordinationspolymere werden vorgestellt. Zusätzlich werden die durch Rekristallisation von Nitac erhaltenen zwei verschiedenen Koordinationspolymere der Formel {[Me3NH]3{NiCl4}{NiCl3}}n und {[(Me3NH]{NiCl3}}n in Bezug auf ihre ungewöhnlichen strukturellen und magnetischen Eigenschaften vorgestellt und beschrieben.
Die durch Austausch von [Me3NH]+ Kationen gegen [Et3NH]+ bzw. protonierten aromatischen N-haltigen Kationen wie [2,2’-bipyH2]2+, [4,4’-bipyH2]2+ and [1,10-phenH2]2+ erhaltenen Reaktionsprodukte aus Umsetzungen mit Hilfe des “wet chemistry” Zugangs werden im Hinblick auf ihre Festkörperstrukturen beschrieben.
Die erfolgreiche Darstellung einer neuen Familie von perylentetracarboxylato-basierenden Komplexen, die teilweise hervorragende Löslichkeiten besitzen, wird beschrieben sowie die strukturellen, magnetischen und lumineszierenden Eigenschaften ausgewählter Vetreter. / The thesis presented here is focused on the synthesis of organic/ inorganic hybrid materials with multifunctional properties by means of the “wet chemistry” approach. The synthesis and characterization of hybrid materials with the general composition catena-{[Me3NH][MCl3·2H2O]}n (Mtac) (MII = Mn, Co, Ni, Cu, tac = [Me3NH]Cl3·2H2O]) is described. Due to their isomorphic and/ or isostructural character, bi-, tri-, and even tetra-heterometallic chains of the general formula {MxM´ytac}n, {MxM´yM´´ztac}n, {MxM´yM´´zM´´´ttac}n (MII = M ≠ M´≠ M´´≠ M´´´≠ M´´´´ and x, y, z, t is the percentage of each metal content) were synthesized and characterized. Limitating factors of the synthesis of these types of heterometallic coordination polymers are discussed. Furthermore, the conductive properties of selected representatives were investigated. Additionally, the products obtained from recrystallization of Nitac, two different novel 1D coordination polymers of the formula {[Me3NH]3{NiCl4}{NiCl3}}n and {[(Me3NH]{NiCl3}}n are described with respect to their structural and magnetic properties.
Efforts to replace the [Me3NH]+ cations of Mtac compounds by [Et3NH]+ cations as well as by protonated aromatic amines as [2,2’-bipyH2]2+, [4,4’-bipyH2]2+ and [1,10-phenH2]2+ are reported next with respect to the structural exploration of obtained hybrid materials by the “wet chemistry” approach.
Finally, the synthesis of a new family of perylene tetracarboxylate (ptc) based soluble complexes is reported. Structural, magnetic and luminescence properties of selected representatives of this new series of soluble ptc derivatives are reported.
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Synthesis and Characterization of Multifunctional Organic/ inorganic Hybrid Materials obtained by the "wet chemistry" approachKammoe, Astride Lorette 31 July 2015 (has links) (PDF)
Die vorliegende Arbeit fokussiert auf die Synthese von organisch/anorganischen Hybridmaterialien mit multifunktionalen Eigenschaften unter ausschliesslicher Darstellung dieser Materialen mit Hilfe des „wet chemistry“ Zugangs. Ausgehend von der Darstellung und Charakterisierung von isomorphen bzw. isostrukturellen Hybridmaterialien der allgemeinen Zusammensetzung catena-{[Me3NH][MCl3·2H2O]}n (Mtac) (MII = Mn, Co, Ni, Cu, tac = [Me3NH]Cl3·2H2O]) speziell mittels IR und UV/vis Spektroskopie ist beschrieben, wie sich aus diesen entsprechende bi-, tri-, und auch tetra-heterometallische Koordinationspolymere der allgemeinen Zusammenseztung {MxM´ytac}n, {MxM´yM´´ztac}n, {MxM´yM´´zM´´´ttac}n (MII = M ≠ M´≠ M´´≠ M´´´≠ M´´´´ und x, y, z, t als prozentualer Metallgehalt) herstellen lassen und welche limitierende Faktoren zu berücksichtigen sind. Leifähigkeitsmessungen an Einkristallen ausgewählter Koordinationspolymere werden vorgestellt. Zusätzlich werden die durch Rekristallisation von Nitac erhaltenen zwei verschiedenen Koordinationspolymere der Formel {[Me3NH]3{NiCl4}{NiCl3}}n und {[(Me3NH]{NiCl3}}n in Bezug auf ihre ungewöhnlichen strukturellen und magnetischen Eigenschaften vorgestellt und beschrieben.
Die durch Austausch von [Me3NH]+ Kationen gegen [Et3NH]+ bzw. protonierten aromatischen N-haltigen Kationen wie [2,2’-bipyH2]2+, [4,4’-bipyH2]2+ and [1,10-phenH2]2+ erhaltenen Reaktionsprodukte aus Umsetzungen mit Hilfe des “wet chemistry” Zugangs werden im Hinblick auf ihre Festkörperstrukturen beschrieben.
Die erfolgreiche Darstellung einer neuen Familie von perylentetracarboxylato-basierenden Komplexen, die teilweise hervorragende Löslichkeiten besitzen, wird beschrieben sowie die strukturellen, magnetischen und lumineszierenden Eigenschaften ausgewählter Vetreter. / The thesis presented here is focused on the synthesis of organic/ inorganic hybrid materials with multifunctional properties by means of the “wet chemistry” approach. The synthesis and characterization of hybrid materials with the general composition catena-{[Me3NH][MCl3·2H2O]}n (Mtac) (MII = Mn, Co, Ni, Cu, tac = [Me3NH]Cl3·2H2O]) is described. Due to their isomorphic and/ or isostructural character, bi-, tri-, and even tetra-heterometallic chains of the general formula {MxM´ytac}n, {MxM´yM´´ztac}n, {MxM´yM´´zM´´´ttac}n (MII = M ≠ M´≠ M´´≠ M´´´≠ M´´´´ and x, y, z, t is the percentage of each metal content) were synthesized and characterized. Limitating factors of the synthesis of these types of heterometallic coordination polymers are discussed. Furthermore, the conductive properties of selected representatives were investigated. Additionally, the products obtained from recrystallization of Nitac, two different novel 1D coordination polymers of the formula {[Me3NH]3{NiCl4}{NiCl3}}n and {[(Me3NH]{NiCl3}}n are described with respect to their structural and magnetic properties.
Efforts to replace the [Me3NH]+ cations of Mtac compounds by [Et3NH]+ cations as well as by protonated aromatic amines as [2,2’-bipyH2]2+, [4,4’-bipyH2]2+ and [1,10-phenH2]2+ are reported next with respect to the structural exploration of obtained hybrid materials by the “wet chemistry” approach.
Finally, the synthesis of a new family of perylene tetracarboxylate (ptc) based soluble complexes is reported. Structural, magnetic and luminescence properties of selected representatives of this new series of soluble ptc derivatives are reported.
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