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41	Synthesis and Study of Hybrid Organic – Inorganic Polyhedral Oligomeric Silsesquioxanes (poss) Based Polymers Gadodia, Gunjan A, 01 September 2009 (has links) Hybrid organic-inorganic materials represent a new class of materials having scientific and technological potential. In this thesis, Polyhedral Oligomeric Silsesquioxanes (POSS) are used as an inorganic building block which has been tethered to an organic polymer. POSS are silica precusors, having a well defined silsesquioxane cental core surrounded by an organic periphery which makes them compatible with monomers and possibly polymers. The objectives of this study are to (1) study the basic structures of POSS homopolymers, (2) to incorporate POSS building blocks by a bottomup approach into polymer chains and study the resulting morphologies, and (3) to study the thin film behavior of POSS block copolymers. PMA and styryl POSS homopolymers of different peripheries were synthesized by ATRP and mass spectrometry studies were carried out by MALDI-TOF and ESI. PMA POSS chains undergo a number of fragmentations while styrly POSS chains have a relatively robust backbone. Poly(ethylene-butylene-b-MAPOSS), AB type copolymers and poly(MAPOSS-b-styrene-b-MAPOSS), ABA type copolymers were synthesized by a combination of anionic and ATRP polymerization. Spheres, inverse cylinders, lamellar and crystalline lamellar morphologies were observed for the poly(ethylene-butylene-b- MAPOSS) copolymers. In the poly(MAPOSS-b-styrene-b-MAPOSS) copolymers, cylindrical, lamellar and perforated lamellar morphologies were obtained. Beyond the interaction parameter (χ), total degree of polymerization (N) and volume fraction (f), the conformational asymmetry (ε) also plays an important role in determining the morphology of these block copolymer. Crystallization of the POSS phase and better thermal properties were observed in the both block copolymers. Thin film studies of poly(MAPOSS-b-styrene-b-MAPOSS) copolymers showed that the microdomains can be oriented either parallel or perpendicular to the substrate depending upon the film thickness, morphology and relative volume fractions of the connecting blocks. By removal of the organic phase, ordered mesoporous low dielectric constant silica films were obtained. These hybrid block copolymers are a potential candidate for nanopatterning applications. block copolymer conformational asymmetry morphologies perforated lamellae POSS silsesquioxane Polymer Science
42	Processing, Optimization And Characterization Of Fire Retardant Polymer Nanocomposites Zhuge, Jinfeng 01 January 2010 (has links) Fiber reinforced polymeric composites (FRPC) have superior physical and mechanical properties, such as high specific strength, light weight, and good fatigue and corrosion resistance. They have become competitive engineering materials to replace conventional metallic materials in many important sectors of industry such as aircraft, naval constructions, ships, buildings, transportation, electrical and electronics components, and offshore structures. However, since FRPC contain polymer matrix, the polymer composites and their structures are combustible. FRPC will degrade, decompose, and sometimes yield toxic gases at high temperature or subject to fire conditions. The objective of this study is to design and optimize fire retardant nanopaper by utilizing the synergistic effects of different nanoparticles. A paper-making technique that combined carbon nanofiber, nanoclay, polyhedral oligomeric silsesquioxanes, graphite nanoplatelet, and ammonium polyphosphate into self-standing nanopaper was developed. The fire retardant nanopaper was further incorporated into the polymer matrix, in conjunction with continuous fiber mats, through resin transfer molding process to improve fire retardant performance of structural composites. The morphology, thermal stability, and flammability of polymer composites coated with hybrid nanopaper were studied. The cone calorimeter test results indicated that the peak heat release rate of the composites coated with a CNF-clay nanopaper was reduced by 60.5%. The compact char material formed on the surface of the residues of the CNF-clay nanopaper was analyzed to understand the fire retardant mechanism of the nanopaper. The financial support from Office of Naval Research is acklowdged. nanocomposites hybrid nanopaper carbon nanofiber clay POSS xGnP flame resistance Engineering Mechanical Engineering
43	REINFORCEMENT OF MELT-BLEND COMPOSITES; POLYMER-FILLER INTERACTIONS, PHASE BEHAVIOR, AND STRUCTURE-PROPERTY RELATIONSHIPS Milliman, Henry 31 January 2012 (has links) No description available. Chemistry Materials Science Polymers POSS composites blends structure-property relationships phase behavior Hansen solubility parameters
44	Giant Molecular Shape Amphiphiles: Click Synthesis, Supramolecular Assembly, and Beyond Dong, Xuehui January 2013 (has links) No description available. Polymers Physics Polymer Chemistry Shape Amphiphiles Polymer POSS Fullerene Self-assembly Crystal
45	Control Of C60-POSS Nano Particle Locaiton In DirectedSelf-Assembly of Block Copolymer Thin Films Qian, Jiajie 09 June 2014 (has links) No description available. Polymers Polymer Chemistry Chemical Engineering Block copolymer thin film C60 POSS nanoparticle location dispersion
46	Syntheses and Characterization of Polyhedral Oligomeric Silsesquioxane Based Giant Molecular Shape Amphiphiles Wu, Kan 10 June 2014 (has links) No description available. Polymers Polymer Chemistry giant molecular shape amphiphiles POSS polymer self-assembly
47	Manipulation of self-assembled nanostructures from molecular Janus particles based on polyoxometalates, polyhedral oligomeric silsesquioxanes and [60]fullerene Liu, Hao January 2015 (has links) No description available. Chemistry Polymer Chemistry Inorganic Chemistry
48	Asymmetric Hybrid Giant Molecules: Precise Synthesis and Phase Diagrams Bai, Ruobing 10 June 2016 (has links) No description available. Chemistry Materials Science Polymer Chemistry Polymers Self-assembly precise synthesis fluorous materials POSS giant surfactants
49	Synthesis of Polystyrene (PS)-Polyhedral Oligomeric Silsesquioxane (POSS)-Based Giant Molecules with Sequence-controlled POSS Heads Zhang, Siyu 07 June 2016 (has links) No description available. Chemistry Materials Science Polymer Chemistry Polymers sequence-controlled giant molecules POSS
50	Assessing the effectiveness of siloxane-based flame retardants / Bedömning av effektiviteten hos siloxanbaserade flamskyddsmedel Eklund Wallin, Josefin January 2022 (has links) Polyedrisk oligomer silsesquioxane (POSS) är molekyler som har en inorganisk ryggrad med organiska grupper fa ̈sta utan på. Själva kåren har en bur liknande form och har en hög termisk stabilitet tack vare kisel (Si) och syre (O) som den består av. Det organiska grupperna som kan fästas på kåren kan variera för att få en molekyl som är anpassad för det material den ska blandas in i, tillexempel polyvinylklorid (PVC). POSS molekylerna kan blandas in i material antigen fysiskt eller kemiskt beroende på vilka organiska grupper molekylen består av. Tack vare den termiska stabiliteten POSS är på en intressant molekyl att använda som ett alternativt flamskyddsmedel till existerande flamskyddsmedel. Det olika POSS materialen var producerade med lite olika reaktions parametrar och var gjorda av Funzionano AS i Norge, Porsgrunn. Materialet har bevarat olika lång tid men det olika POSS materialen har också olika funktionella grupper. Provet med namn SF458 211122 var också adderat till PVC materialet för att se om det påverkade PVC:s termiska egenskaper. Syftet med detta master arbete är att kolla om tiden proverna bevaras, olika funktionella grupper och om olika reaktions parametrar kommer påverka det termiska egenskaperna. Dessa parametrar utforskas genom att använda analys instrumenten TGA/DSC och DSC. Men också för att se om POSS förbättrar PVC:s termiska egenskaper. Resultaten visar att 3 av det 4 olika SF458 proverna hade liknande glasstransaktions temperaturer (Tg) som är runt 27 °C även om det förvarats olika lång tid. 1 av det 4 olika SF458 hade högre Tg vilket kan bero p ̊a att den syntesen hade andra reaktions förhållanden i sista reaktions steget bland annat. Smältpunkten och mängden prov kvar efter TGA analyserna kan påverkas av förvaringstiden eller reaktions förhållandena. För att få fram vad som påverkar vad måste mer forskning göras. / Polyhedral oligomeric silsesquioxane (POSS) are molecules with an inorganic backbone which has organics groups attached to the backbone. The backbone is like a cage and the functional groups are arms that goes out from the cage. The inorganic backbone does so the molecule has high thermal stability and the functional groups make it possible to tailor the molecule so it can be easier to physical or chemical blend it into a material, like thermoplastics. The thermal properties of POSS make it to an interesting alternative as a flame retardant since it is also not has hazardous as other common flame retardants. The different POSS material have been synthesised with some different reaction parameters and were prepared by Funzionano AS in Norway, Porsgrunn. The material have been stored for different times but also the cage have different functional groups attached to it. POSS named SF458 211122 were also physically incorporated to polyvinyl chloride (PVC) to see if it have any effect on the thermal properties. The aim of the study is to see if the time of storage, different functional groups and different synthesis parameters affect the thermal properties of the POSS material by using DSC and TGA/DSC instruments. But also to see if the thermal properties of PVC is improved when POSS is physically added. The results showed that 3 of 4 of the different SF458 samples had similar glass transition temperatures (Tg), around 27 °C so the time of storage does not affect that property. Since 1 of the 4 samples had a higher Tg is probably due to other synthesis conditions. The affect in melting point and amount of residue can be effected by either the time of storage or the parameters for the synthesis. So, further research needs to be done. Polyhderal oligomeric silsesquioxane POSS PVC TGA/DSC DSC thermal properties Inorganic Chemistry Oorganisk kemi

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