Herstellung von funktionellen und nanostrukturierbaren Blockcopolymeren und deren Verhalten in dünnen Filmen

Riedel, Maria

15 June 2018

Das Ziel der Arbeit bestand in der Präparation von multifunktionellen phasenseparierten Blockcopolymerfilmen, die an der Oberfläche über polymeranaloge Reaktionen modifiziert werden können. Dafür wurden zunächst phasenseparierte Blockcopolymere über RAFT-Polymerisation synthetisiert, in die sowohl funktionelle als auch Vernetzergruppen integriert wurden. Als funktionelle Monomere kamen dabei Propargylmethacrylat, Propargyloxystyrol, Vinylbenzylchlorid und Pentafluorostyrol zum Einsatz. Die Vernetzergruppen wurden über die Monomere Vinylpyridin, Glycidylmethacrylat, 4-Benzoyl-3-hydroxyphenylmethacrylat und Dimethylmaleinimidobutylmethacrylat eingebaut. Die erhaltenen Polymere wurden hinsichtlich ihrer Molmasse und ihrer thermischen Eigenschaften mit GPC, NMR, DSC und TGA untersucht. Des Weiteren erfolgten polymeranaloge Reaktionen, wie die kupferkatalysierte Cycloaddition von Aziden an Alkinen, eine cäsiumvermittelte Veresterung der Vinylbenzylchloridgruppe mit Liponsäure als auch eine Substitution am Pentafluorostyrol mit Thiolen, an den synthetisierten Blockcopolymeren. Dünne Filme dieser Blockcopolymere wurden mit Rasterkraftmikroskopie untersucht und dabei teilweise Phasenseparation erhalten. Die Filme wurden darauf chemisch, thermisch als auch photochemisch vernetzt, um die erhaltenen Strukturen zu fixieren. Dabei konnte ein vollständiger Erhalt der Phasenstrukturen nicht erreicht werden. Allerdings zeigten die thermischen als auch photochemischen Vernetzungen die vielversprechendsten Ergebnisse.

RAFT-Polymerisation

Blockcopolymere

CuAAC

Klickreaktion

dünne Filme

Phasenseparation

RAFT polymerisation

block copolymers

CuAAC

click reaktion

thin films

phase separation

ddc:540

rvk:VK 8007

Propriedades estruturais, eletrônicas e termodinâmicas dos nitretos do grupo-III e de suas ligas / Structural, electronic and thermodynamic properties of group-III nitrides and their alloys.

Lara Kuhl Teles

10 May 2001

Neste trabalho foram efetuados estudos importantes e pioneiros sobre as propriedades estruturais, eletrônicas e termodinâmicas dos nitretos e de suas ligas, através de dois métodos de primeiros princípios distintos, o FLAPW (\"Full-potential Linear Augmented Plane Wave\") e o pseudopotencial combinado com a aproximação quasequímica generalizada. Na primeira parte, utilizando o método FLAPW, calculamos as estruturas de bandas para os nitretos cúbicos do grupo-IH, BN, AIN, GaN e InN. Foram obtidos valores para a constante de rede e \"bulk modulus\" para os nitretos do grupo-III através de cálculos relativísticos da energia total. Através das estruturas de bandas e analisando o topo da banda de valência e o fundo da banda de condução perto do ponto r ou, no ponto k correspondente ao mínimo da banda de condução, derivamos os respectivos valores para as massas efetivas de elétron e de buraco pesado, leve e de \"split-off\' e correspondentes parâmetros de Luttinger. Todos os resultados são comparados com dados experimentais e teóricos existentes na literatura. Na segunda parte, utilizando o método FLAPW, estudamos a influência da impureza de Mg na estrutura eletrônica do GaN cúbico (c-). Realizamos cálculos da otimização da geometria, incluindo deslocamentos dos primeiros e segundos vizinhos, para os casos da impureza com estados de carga neutro e negativo. Obtivemos o valor de 190 meV para o deslocamento de Franck-Condon da energia térmica, o qual apresenta um bom acordo com os dados experimentais de fotoluminescência e efeito Hall. Nós concluímos que os primeiros e segundos vizinhos desempenham um papel importante na determinação das energias do nível aceitador resultante da dopagem do c-GaN com Mg. Na terceira parte, nós apresentamos cálculos das propriedades eletrônicas, estruturais e termodinâmicas de ligas cúbicas envolvendo os nitretos do grupo-III, InxGa1-xN, InxAl-xN, AlxGal-xN, BxGal-xN e BxA1-xN. Nós combinamos o método de expansão de \"clusters\" através da aproximação quasequímica generalizada (\"Generalized Quasichemical Approximation -GQCA\") com cálculos de pseudopotenciais \"ab initio\" DFT-LDA. Para todas a ligas, exceto a de AlxGal-xN, encontramos separação de fase para temperaturas próximas das temperaturas de crescimento. Generalizamos o método de expansão de \"c1usters\" para estudar a influência da tensão biaxial. Encontramos uma significativa supressão da separação de fase induzida pela tensão para as ligas de InxGal-xN e InxAh-xN, sendo no caso da liga de InxGal_xN confirmado experimentalmente. Observamos também que flutuações da energia do \"gap\" da liga de InxGal-xN permitem definir valores mínimo e médio para a energia do \"gap\" com diferentes valores para o \"bowing\". Observamos que a tensão biaxial reduz as flutuações da energia do \"gap\", resultando em uma diminuição do valor do \"bowing\". Através deste estudo mostramos uma possível explicação para a discrepância experimental para valores do \"bowing\". / In this work we performed a pioneer theoretical study of structural, electronic and thermodynamic properties of the group-III nitrides and their alloys, by using two distinct first principles methods, the FLAPW full potential linear augmented plane wave and the pseudopotential-plane-wave method combined with the generalized quasichemical approximation. In the first part of our work, by using the FLAPW, we present the electronic band structures ofthe zinc-blende-type group-III nitrides compounds, BN, AIN, GaN, and InN. Lattice constant and bulk modulus are obtained from fuH relativistic total-energy calculations. Electron, heavy-, light-, and split-off-hole effective masses and corresponding Luttinger parameters are extracted from the band-structure calculations. A comparison with other available theoretical results and experimental data is made. In the second part of our work, by using the FLAPW method, the electronic structure of Mg impurity in zinc-blende (c-) GaN is investigated. Full geometry optimization calculations, including nearest and next-nearest neighbor displacements, were performed for the impurity in the neutral and negatively charged states. A value of 190 meV was obtained for the Franck-Condon shift to the thermal energy, which is in good agreement with that observed in recent low temperature photoluminescence and Hall-effect measurements. We conclude that the nearest and the next-nearest neighbors of the Mg impurity replacing Ga in c-GaN undergo outward relaxations which play an important role in the determination ofthe center acceptor energies. In the third part of our work, we present a study of electronic, structural, and thermodynamic properties of the cubic group-III nitrides alloys, InxGal-xN, InxAll_xN, AlxGal-xN, BxGal-xN e BxAll-xN. We combined the generalized quasichemical approximation (GQCA) with an ab initio pseudopotential-plane-wave method. For alI alIoys, except the AlxGal-xN, we observe a miscibility gap for temperatures near those of the growth. The cluster treatment is generalized to study the influence of biaxial strain. We find a remarkable suppression ofphase separation in InxGal-xN and InxAll-xN induced by strain which is confirmed by experiments on the InxGal_xN alloy. We also observed that the gap fluctuations in the InxGal-xN alloy allow the definition of a minimum gap and an average gap with different bowing parameters. Biaxial strain drastically reduces the gap fluctuations, resulting in a reduction of the bowing. The different gaps and the strain influence investigated provide an explanation for the discrepancies found in the experimental values of the bowing parameter.

Física da Matéria Condensada

InGaN

Ligas Ternárias

Nitretos

Separação de Fase

\"gap\" de miscibilidade

Condensed matter physics

InGaN

Nitrides

Phase separation

Ternary alloys

\"Gap\" miscibility

Vidros porosos de de alto teor de sílica para armazenamento de rejeitos nucleares. Solidificação, caracterização e lixiviação / High content silica porous glass for nuclear waste storage. Solidification, characterization and leaching

Dayse Iara dos Santos

22 December 1983

Apresentamos um estudo de solidificaçaõ e lixiviacão de matrizes de vidros porosos de alto teor de sílica armazenando 20% em peso de solução aquosa simuladora de rejeitos nucleares de alto nível de radioatividade do tipo Savanah River Labratory. A matriz porosa foi preparada após o tratamento térmico de um vidro de 65% SiO2-27%B2O3-8%Na2O, que sofreu separação de fase à 560°C por 20 horas e lixiviado em HCl - 3N à 90°C. O tamanho dos poros (tipicamente de 100 à 250Å de diâmetro) , foi determinado utilizando o método BET. Após sinterização à 1300°C em ar, as amostras foram caracterizadas física e quimicamente através de testes de lixiviação padronizados MCC1, Soxhlet (MCC5) e Estagnante durante cerca de 28 dias. Determinamos a perda de peso total, o pH, as taxas de lixiviação diferencial e as concentrações acumuladas para os seguintes elementos: Si, Na, B, Ca, Mn, Al, Fe e Ni com técnicas de ICP e espectroscopia de chama para o caso do Na. Os resultados são comparados com os obtidos com vidros borosilicatos de referência, fabricados por fusão convencional (SRL 131, PNL 76-68, MCC 76-68, SRL TDS 131, AVM-Ml à M7), vidros fabricados pela técnica sol-gel (TDS 211), vidros de alto teor de sílica (CU PGM), synroc-D, cerâmicas manufaturadas, concreto FUETAP e matrizes metálicas. Os valores obtidos são similares àqueles obtidos com os melhores vidros borosilicato presentemente usados. / We present a study of the sinterization and of the leaching behavior of a high silica porous glass matrix containing 20 weight % of simulated solution of high level liquid nuclear waste of the type Savanah River Laboratory. The porous matrix has been prepared after heat treatment of a 65% SiO2-27%B2O3-8%Na2O glass, phase separate at 560°C for 20 hours and leached in 3N HCl at 90°C. The pore size (typically 100-250Å in diameter) has been determined by the BET method. After sinterization in air at 1300°C, the samples have been physically and chemically characterized during 28 days using the MCC1, Estagnant and Soxhlet (MCC5) standard tests. We have determined thetotal weight loss, the pH, the diferential leaching rate and the cumulative concentrations for the following elements: Si, Na, B, Ca, Mn, Al, Fe and Ni by ICP technique, for Na flames spectroscopy. The results are compared with these obtained with other reference borosilicate glasses made by conventional fusion techniques (SRL 131, PNL 76-68, MCC 76-68, SRL TDS 131, AVM-M1 to M7), glasses made by sol-gel technique (TDS-211), porous glasses matrix (CU PGM), synroc-D, tailored ceramics, FUETAP concrete and metallic matrix. The values obtained are similar to those found for the best borosilicate glass presently used.

Armazenamento de rejeitos nucleares

Lixivação

Separação de fases

Testes soxlet

Vidro poroso de sílica

Corrosion of waste storage

Leaching

Nuclear waste storage

Phase separation

Silica porous glass

Soxlet tests

Soluções de aminas em líquidos iônicos para captura de CO2: espectroscopia vibracional e cálculos DFT / Solutions of amines in ionic liquids for CO2 capture: vibrational spectroscopy and DFT calculations

Luiz Fernando Lepre

25 July 2013

A substituição da água por líquidos iônicos (LI) oferece uma alternativa promissora para o desenvolvimento de processos de separação de gases, principalmente devido à significativa demanda energética em processos convencionais que utilizam soluções aquosas de aminas. Esta proposta apresenta-se interessante por aliar as propriedades dos LI à reatividade de aminas perante o CO2. A físico-química que governa as interações entre os íons dos líquidos iônicos é bastante diversa das encontradas em solventes moleculares, sendo que ainda permanecem muitas questões fundamentais acerca destes materiais. A melhor compreensão das interações estabelecidas entre aminas e LI, e dos produtos formados após a reação com CO2, pode contribuir para o desenvolvimento de processos mais eficazes que permitam a substituição da água nos processos convencionais. O presente trabalho teve como objetivo investigar soluções das aminas primárias propilamina (PA), 2-metoxietilamina (MOEN) e monoetanolamina (MEA) em líquidos iônicos imidazólicos com diferentes ânions: 1-butil-3-metilimidazólio tetrafluoroborato (BMIBF4), hexafluorofosfato (BMIPF6), bis-(trifluorometilsulfonil)imida (BMITFSI) e dicianamida (BMIN(CN)2). Para tal, foram utilizadas as espectroscopias Raman e infravermelho (IR), cujos resultados foram suportados por cálculos baseados na teoria do funcional da densidade (DFT). Os resultados mostram que o modo de estiramento assimétrico do grupo NH2 das aminas, νas(NH2), é o mais adequado para se inferir sobre o grau de agregação das aminas em solventes orgânicos e em LI. No caso das reações das aminas com CO2 nos diferentes LI, o comportamento foi similar à reação com as aminas puras, ou seja, na PA houve cristalização, na MOEN, a formação de um líquido miscível com os LI, e na MEA, a formação de um gel com a subsequente separação de fases. Em particular, no caso da reação entre MEA e CO2 em LI, além da separação de fases, foi observada a diferente solubilidade dos produtos de reação dependendo do LI em questão. Em contraste ao processo convencional que utiliza soluções aquosas de aminas para a captura do CO2, acredita-se que a separação de fases observada em LI seja uma vantagem a ser explorada, já que permitiria um menor gasto energético na recuperação da amina absorvedora, além da recuperação do solvente não volátil / The replacement of water by ionic liquids (IL) offers a promising alternative for the development of gas separation processes, mainly due to the significant energy demand in conventional processes using aqueous solutions of amines. This proposal is exciting because it combines the properties of IL with the reactivity of amines towards CO2. The physical-chemistry that governs the interactions between the ionic liquids ions is quite different from those found in molecular solvents, and many fundamental questions still remain about these materials. A better understanding of the interactions between amines and IL, and the products formed after the reaction with CO2, may contribute to the development of more efficient processes to enable the replacement of water in conventional processes. This study aimed to investigate solutions of the primary amines propylamine (PA), 2-methoxyethylamine (MOEN) and monoethanolamine (MEA) in imidazolium ionic liquids with different anions: 1-butyl-3-methylimidazolium tetrafluoroborate (BMIBF4), hexafluorophosphate (BMIPF6), bis (trifluoromethylsulfonyl)imide (BMITFSI) and dicyanamide (BMIN(CN)2). For these purposes, the Raman and infrared (IR) spectroscopies were used, whose results were supported by calculations based on density functional theory (DFT). The results show that the asymmetric stretching mode of the amines group NH2, νas(NH2), are the most suitable for inferring the degree of aggregation of amines in organic solvents and IL. In the case of reactions of amines with CO2 in different IL, the behavior was similar to the reactions with neat amines, that is, it was observed crystallization with PA, the formation of a liquid miscible with IL in MOEN, and the formation of a gel-like product with subsequent phase separation in MEA. In particular, the case of the reaction between MEA and CO2 in IL, in addition to the phase separation, it was observed the different solubility of the reaction products depending on the IL concerned. In contrast to the conventional process using aqueous solutions of amines for the capture of CO2, it is believed that the phase separation observed in IL is an advantage to be exploited, since they allow lower energy consumption in the recovery of the amine absorber, besides the recovery of the non-volatile solvent.

2-metoxietilamina

Carbamato

Imidazólio

Ligação de hidrogênio

Líquidos iônicos

Monoetanolamina

Propilamina

Separação de fase

2-methoxyethylamine

Carbamate

Hydrogen bond

Imidazolium

Ionic liquids

Monoethanolamine

Phase separation

Propylamine

Comportamento de fases de soluções binarias e ternarias de poli(etileno-co-alcool vinilico), poli(metacrilato de metila) e dimetilformamida / Phase behavior of binary and ternary solutions of poly(ethylene-co-vinyl alcohol), poly(methyl methacrylate) and dimethylformamide

Lima, Juliana Aristeia de

11 June 2008

Orientador: Maria Isabel Felisberti / Tese (doutorado) - Universidade Estadual de Campinas, Instituto de Quimica / Made available in DSpace on 2018-08-12T12:37:28Z (GMT). No. of bitstreams: 1 Lima_JulianaAristeiade_D.pdf: 4425741 bytes, checksum: e0c47d6335f66cc31a0fe6e5ac1c0457 (MD5) Previous issue date: 2008 / Resumo: Neste trabalho foram estudadas blendas de poli(etileno-co-álcool vinílico) (EVOH), um copolímero semicristalino que combina segmentos hidrofílicos e hidrofóbicos e poli(metacrilato de metila) (PMMA), um polímero amorfo e hidrofílico. As blendas de EVOH, com teor de etileno variando de 27 a 44 mol %, e PMMA foram preparadas por casting a partir de soluções em DMF, e por mistura mecânica em um mini-misturador, objetivando: i) avaliar o comportamento de fases e a morfologia das blendas, EVOH/PMMA, em função da composição das misturas, do teor de etileno nos copolímeros de EVOH e do método de preparação; ii) obter os diagramas de fases das soluções binárias, EVOH/DMF, e ternárias, EVOH/PMMA/DMF, através do processo de separação de fases induzido termicamente (TIPS). O comportamento de fases das blendas, EVOH/PMMA, foi estudado através de Calorimetria Diferencial de Varredura (DSC) e Análise Dinâmico-Mecânica (DMA). A morfologia das blendas foi investigada por Microscopia Eletrônica de Varredura (SEM). As blendas independentemente do modo de preparação e da composição são imiscíveis. Como conseqüência desta imiscibilidade, as temperaturas de fusão (Tf) e cristalização (Tc) não são afetadas pela presença de PMMA. A morfologia das blendas varia com a composição e método de preparação. As blendas obtidas pelo método mecânico são compactas, apresentando morfologia de fase dispersa em uma matriz, com inversão de fases em aproximadamente 50 % em massa de cada componente. As soluções binárias, EVOH/DMF, e ternárias, EVOH/PMMA/DMF, foram submetidas a ensaios para a determinação das temperaturas de turvamento (Tturv) por microscopia ótica, e de cristalização dinâmica (Tcd), por DSC. As soluções binárias apresentaram comportamento UCST (upper critical solution temperature), sendo que a separação de fases L-L ocorre a temperaturas superiores à separação de fases S-L. O modelo de interações binárias prevê que a curva de separação L-L para as soluções EVOH- 38/DMF esteja situada a temperaturas superiores em relação às soluções EVOH-32/DMF e indica que a separação de fases resulta da baixa afinidade entre segmentos hidrofóbicos do EVOH com os segmentos do polímero contendo hidroxila e com o solvente, DMF, concordando com os dados obtidos experimentalmente. Filmes de EVOH obtidos pela evaporação do solvente mostraram-se densos, sem a presença de poros. As soluções ternárias também apresentaram comportamento UCST, resultando em duas fases macroscópicas, F1 e F2, à temperatura ambiente. A composição destas fases foi determinada por Análise Termogravimétrica (TGA), e os resultados mostraram que uma das fases macroscópicas é rica em EVOH e outra fase é rica em PMMA. As blendas resultantes da secagem dos sistemas ternários apresentaram duas camadas: uma densa e rica em PMMA e outra porosa e rica em EVOH. A presença de PMMA foi decisiva à formação de estruturas porosas / Abstract: In this work blends of poly (ethylene-co-vinyl alcohol) (EVOH), a semicrystalline copolymer which combines hydrophobic and hydrophilic segments and poly (methyl methacrylate) (PMMA), an amorphous and hydrophilic polymer were studied. EVOH blends, with ethylene content ranging from 27 to 44 mol% and PMMA were prepared by casting from solutions in DMF, and by mixing into a mini-mixer, with the objective of: i) evaluate the phase behavior and the morphology of the blends, EVOH/PMMA, depending on the composition of mixtures, the ethylene contents in the copolymers of EVOH and the conditions of mixing; ii) obtain the phase diagrams of the binary and ternary solutions, EVOH/DMF and EVOH/PMMA/DMF, respectively, by the process of thermally induced phase separation (TIPS). The phase behavior of the blends, EVOH / PMMA, was investigated by Differential Scanning Calorimetry (DSC) and Dynamic Mechanical Analysis (DMA). The morphology of the blends was investigated by Scanning Electron Microscopy (SEM). The blends independently of the method of preparation and of the composition are immiscible. As a result of immiscibility, the melting temperature (Tm) and the crystallization temperature (Tc) are not affected by the presence of PMMA. The morphology of the blends varies with the composition and with the method of preparation. The blends produced by the mechanical method is compact, showing morphology of dispersed phase in a matrix, with inversion of phases in about 50% by weight of each component. The binary solutions, EVOH-38/DMF and EVOH-32/DMF, were submitted to experiments to determine the cloud temperature (Tcloud) by optical microscopy, and the dynamic crystallization (Tcd), by DSC. The binary solutions show UCST behavior (upper critical solution temperature), and the L-L phase separation occurs at higher temperatures than the S-L phase separation. The binary interaction model provides the L-L line to the EVOH-38/DMF, solutions which was situated at higher temperatures than the EVOH-32/DMF solutions and indicates that the phase separation results from the low affinity between the hydrophobic segments of EVOH with the segments of the polymer containing hydroxyl and the solvent, DMF, which agrees with the data obtained experimentally. Films of EVOH obtained by the solvent evaporating seemed to be dense, without the presence of pores. The ternary solutions also had UCST behavior, resulting in two macroscopic phases, F1 and F2, at room temperature. The phase compositions were determined by Thermogravimetric Analysis (TGA), and the results showed that one of the macroscopic phases is rich in EVOH and the other phase is rich in PMMA. The blends resulting from drying of ternary systems had two layers: a dense and rich in PMMA and another porous and rich in EVOH. The presence of PMMA was crucial to the formation of porous structures / Doutorado / Físico-Química / Doutor em Ciências

Blendas

Diagramas de fase

Blends

Poly(ethylene-co-vynil alcohol)

Phase diagram

Phase Separation in Stainless Steels Studied by Small-angle Neutron Scattering

Xu, Xin

January 2017

Fe-Cr based steels, i.e. stainless steels, possessing a combination of excellent corrosion resistance and good mechanical properties, have indispensable applications ranging from low-end cooking utensils, to sophisticated components for nuclear power plants. However, the bcc/bct phase containing stainless steels which have a miscibility gap (MG) suffer from the so-called “475 oC embrittlement” leading to hardness increase and toughness deterioration. It occurs due to demixing of Fe and Cr leading to the formation of Fe-rich (α) and Cr-rich (α′) regions in bcc/bct phases. The demixing is referred to as phase separation (PS). The goal of this work was to study PS in ferrite containing stainless steels mainly by small-angle neutron scattering (SANS). Firstly, the application of different experimental techniques for the study of phase separation in Fe-Cr based steels was reviewed and supplemented by new measurements. SANS was shown to be very sensitive to the nanostructure change caused by PS and capable of characterizing the early stages of PS in Fe-Cr alloys. However, atom probe tomography and transmission electron microscopy are complementary to SANS. Therefore, in order to have a more complete view of the microstructure, the combination of these techniques should be pursued. Secondly, the factors affecting the initial microstructure prior to aging treatment and the effect of the resulted initial microstructure on PS were systematically investigated using binary Fe-Cr model alloys. The critical temperature of the MG was determined to be located between 560 and 580 oC in binary Fe-Cr. The results indicate that the solution treatment temperature above the MG and the cooling rate after solution treatment have significant effects on the initial microstructure and thus on PS during subsequent aging. The mechanisms responsible for the changed aging behavior are Cr clustering, quenched-in vacancy and decomposition during cooling. Therefore, computational simulations should take into account these factors and the initial microstructure to make predictions that are more accurate. Thirdly, the study was extended to PS in commercial duplex stainless steels (DSSs) which are of practical importance in various industries, e.g., nuclear power. It is found that alloying elements have an important effect on PS in DSSs. The grade 2507 (25 %Cr, 7 %Ni) experiences stronger PS than grade 2205 (22 %Cr, 5 % Ni) for the same heat treatment. Moreover, the fracture mechanisms as well as the mechanical properties depend on the extent of PS.  Finally, the fundamental aspects regarding the neutron scattering behavior for Fe-Cr alloys were examined. The results show that the nuclear and magnetic scattering of neutrons depend on the evolution of the nanoscale compositional fluctuation in Fe-Cr alloys. The ratio of the magnitude of nuclear scattering versus magnetic scattering varies with the extent of PS. / Stål baserade på Fe-Cr systemet, det vill säga rostfria stål, som har en kombination av utmärkta korrosionsegenskaper och bra mekaniska egenskaper, har många tillämpningar; allt från köksredskap, till sofistikerade komponenter för kärnkraftverk. Rostfria stål som innehåller Bcc / bct-fasen och som således har en blandningslucka, är känsliga för den så kallade "475 °C försprödningen" som leder till en hårdhetsökning men kraftigt försämrad slagseghet. Detta uppstår på grund av en uppdelning av Fe och Cr som leder till bildandet av Fe-rika (a) och Cr-rika (a’) regioner i bcc / bct-fasen. Denna uppdelning brukar kallas fasseparation. Målet med detta arbete var att studera fasseparationen i ferrit-innehållande rostfria stål främst genom lågvinkel-spridning av neutroner (SANS). Till att börja med studerades och jämfördes olika experimentella tekniker för undersökning av fasseparation i Fe-Cr-baserade stål med nya SANS- mätningar. SANS visade sig vara mycket känslig för förändringar på nano-skala orsakad av fasseparation och tekniken visade sig även kapabel att karakterisera de tidiga stadierna av fasseparation i Fe-Cr-legeringar. För att få en mer fullständig bild av mikrostrukturen efter fasseparation, bör emellertid en kombination av SANS och komplementära tekniker, såsom atomsond och transmissions-elektronmikroskopi, användas. Vidare undersöktes de faktorer som påverkar den ursprungliga mikrostrukturen före åldringsbehandling, och effekten av den initiala mikrostrukturen på fasseparation studerades systematiskt med användning av binära modell-legeringar av Fe-Cr. Den kritiska temperaturen för blandningsluckan i Fe-Cr bestämdes vara belägen mellan 560 och 580 °C. Resultaten indikerar att temperaturen för upplösningsbehandling ovanför blandningsluckan och kylhastigheten har en signifikant inverkan på den initiala mikrostrukturen och därmed på fasseparationen under efterföljande åldring. Mekanismerna som är ansvariga för det förändrade åldringsbeteendet är: Cr-klustring, insläckta vakanser och fasseparation under kylning. Simuleringar av fasseparationen bör därför ta hänsyn till dessa faktorer och den ursprungliga mikrostrukturen för att göra mer exakta förutsägelser av hur mikrostrukturen utvecklar sig med åldringstiden. Fasseparationen i kommersiella duplexa rostfria stål (DSS), som är av stor praktisk betydelse i olika branscher, t ex kärnkraft, studerades också med SANS. Det visade sig att mängden av olika legeringselement har en viktig effekt på graden av fasseparation i DSS. Legeringen 2507 uppvisade en tydligare fasseparation jämfört med legering 2205 för samma värmebehandling. Brottmekanismerna såväl som de mekaniska egenskaperna visade sig bero på omfattningen av fasseparationen. Slutligen undersöktes de grundläggande aspekterna hos neutronspridnings-beteendet för binära Fe-Cr-legeringar. Resultaten visade att kärn- och magnetisk spridning av neutroner beror på utvecklingen av sammansättningsfluktuationerna på en nanoskala i Fe-Cr-legeringar. Förhållandet mellan magnetisk- och kärnspridning varierar med omfattningen av fasseparationen. / <p>QC 20171117</p>

Fe-Cr alloys

stainless steels

spinodal decomposition

phase separation

small-angle neutron scattering

mechanical properties

Metallurgy and Metallic Materials

Metallurgi och metalliska material

Comportamento de fases de soluções de poliolefinas funcionalizadas e implicação na obtenção de membranas pelo processo TIPS / Phase behavior of functionalized polyolefin solutions and its inference on obtaining membrane by TIPS process

Marques, Rosalva dos Santos

12 September 2014

Orientador: Maria Isabel Felisberti / Tese (doutorado) - Universidade Estadual de Campinas, Instituto de Química / Made available in DSpace on 2018-08-26T22:37:44Z (GMT). No. of bitstreams: 1 Marques_RosalvadosSantos_D.pdf: 38406911 bytes, checksum: 574d251b2b2578b4a3d9fd0b4e82fcf7 (MD5) Previous issue date: 2014 / Resumo: Neste trabalho, estudou-se o comportamento de fases de soluções binárias e ternárias de poliolefinas funcionalizadas com hidroxilas (EVOH) e ácido carboxílico (PEAA) nos solventes dimetilformamida e álcool benzílico. Utilizou-se EVOH contendo 27 e 44 mol % e PEAA contendo 80 mol % de etileno. As soluções exibem o comportamento de fases do tipo UCST, apresentando separações de fases líquido-líquido (L-L) e sólido-líquido (S-L). As temperaturas de separação de fases L-L e S-L, TL-L e TS-L, respectivamente, foram determinadas para soluções com diferentes composições por inspeção visual e por DSC, respectivamente. Enquanto TS-L para as soluções binárias de EVOH varia fortemente da com a composição das soluções binárias, TS-L para as soluções binárias de PEAA é praticamente constante. Estes resultados foram interpretados sob a ótica de um modelo em que a cristalização do PEAA, que envolve os segmentos de etileno do copolímero, ocorre quase na ausência de solvente. Já a cristalização do EVOH, que envolve os segmentos hidroxilados, ocorre em meio ao solvente, em uma condição em que o potencial químico do polímero varia com a composição da solução. Este modelo pode ser comprovado por estudos de fluorescência empregando-se o pireno e o acetato de uranila como sondas hidrofóbica e hidrofílica, respectivamente. Estes estudos de fluorescência permitiram também acessar transições não detectáveis por DSC. As soluções ternárias homogêneas apresentam mais de uma separação de fases L-L quando submetidas a resfriamento. O diagrama de fases ternário foi construído determinando-se as composições das soluções em equilíbrio, decorrentes da primeira separação de fases L-L, por termogravimetria de alta resolução. Os diagramas de fases das soluções ternárias resultantes das combinações possíveis entre os diferentes polímeros e solventes apresentam regiões de miscibilidade limitadas localizadas em regiões próximas aos vértices, sendo as composições das fases em equilíbrio características de cada combinação nas soluções ternárias. Os materiais resultantes da evaporação do solvente de soluções submetidas ao processo TIPS (Temperature Induced Phase Separation) são compactos ou porosos, dependendo da afinidade polímero-solvente. Entretanto, as morfologias dos materiais resultantes de soluções ternárias submetidas ao processo TIPS são únicas e características do par polímero-polímero, demonstrando que a estratégia de combinação de polímeros para controlar a morfologia é viável / Abstract: The phase behavior of binary and ternary solutions of functionalized poliolefins with hydroxyls (EVOH) and carboxylic acid (PEAA) were studied using dimethylformamide and benzyl alcohol as solvents. PEAA containing 80 mol % and EVOH containing 27 and 44 mol % of ethylene were used. The binary and ternary solutions present a typical UCST behavior associated to liquid-liquid (L-L) and solid-liquid (S-L) phase separation. The temperatures related to L-L and S-L phase separation, TL-L e TS-L, respectively, were determined visually and using DSC, respectively. While TS-L depends on the EVOH solution composition, it is practically constant for PEAA solutions. These results were explained using a model in which the crystallization of PEAA from the solution occurs in absence of solvent, once it involves the polyethylene segments. On the contrary, the crystallization of EVOH from the solution, that involves the hydroxylated segments, occurs in presence of the solvent. This condition leads to the decrease of the chemical potential of EVOH in the solution. The models could be proved by fluorescence experiments using pyrene and uranyl acetate as hydrophobic and hydrophilic probes, respectively. Moreover, the fluorescence experiments allow accessing other transitions not detectable by DSC for ternary solutions. The homogeneous ternary solutions present more than one L-L phase separation by cooling. The ternary diagram was determined by the first L-L phase separation using the composition data accessed by high resolution thermogravimetry. The ternary solutions of all possible combination of polymers and solvents show a restricted miscibility window in the regions near the vertices. The composition of the phases in equilibrium is characteristic of each ternary solution, as well as, the morphology of the materials resulting from the evaporation of the solvent after the solution being subjected to TIPS (Temperature Induced Phase Separation) process. This process applied to binary and ternary solutions resulted in dense or porous materials depending on the polymer-solvent affinity. However, the morphology resulting from ternary solutions subjected to TIPS process and solvent evaporation is unique, showing that the strategy of combining different polymers is a viable route to control the morphology of polymers / Doutorado / Físico-Química / Doutora em Ciências

Comportamento de fases

Membrana

Solução (Química)

Poli(etileno-co-álcool vinílico)

Poly(ethylene-co-vinyl alcohol)

Membrane

Solution (Chemistry)

Stabilization and structural study of new nanocomposite materials / Stabilisation et étude structutale de nouveaux matériaux nanocomposites

Link, Jessica

08 November 2019

Ce travail de thèse a été consacré au développement de nanocomposites polymère (PVDF-co-HFP) – silice hautement chargés en nanoparticules par voie solvant. La combinaison d’un polymère fluoré ; ayant des propriétés mécaniques, diélectriques, piézoélectriques et pyroélectriques très intéressantes ; avec des nanoparticules de silice pourrait nous permettre le développement de nouvelles solutions dans le domaine de l’énergie. Ainsi nous avons étudié l’impact de la chimie de surface des nanoparticules de silice, des paramètres expérimentaux et du procédé par voie solvant sur la structure et les propriétés finales des matériaux obtenus. Pour la réalisation de ces matériaux par voie solvant, une solution P(VDF-co-HFP) – silice dans un solvant commun est préparée puis séchée. Dans le cadre de ce projet nous avons travaillé avec des cétones aliphatiques présentant différentes longueurs de chaînes: la Methyl Ethyl Ketone (MEK) et la 2-heptanone. Ainsi pour la préparation des solutions nous avons développé une approche générique pour transférer des nanoparticules en solution dans l’eau dans un solvant organique par l’intermédiaire d’un agent de transfert. Cependant, avant l’étape de dépôt et séchage, nous avons constaté que le PVDF et ses copolymères (dont le P(VDF-co-HFP)) forment un gel thermoréversible dans ces deux solvants ; avec ou sans silice. Cette gélification impacte certainement l’étape de solvent casting or aucun consensus concernant les mécanismes responsables de la gélification de ce polymère n’a été trouvé dans la littérature. Il apparait primordial de comprendre les mécanismes de gélification du P(VDF-co-HFP) avant d’étudier les propriétés des nanocomposites. Pour cela nous avons étudié l’influence de différents paramètres : nature du solvant, concentration en copolymère, température, présence de charges (concentration et chimie de surface) sur les mécanismes de gélification (Chapitre 3). La cinétique de gélification a été étudiée par tube-tilting et rhéologie linéaire. Une combinaison de RMN 19F, DSC, SAXS, WAXS et rhéologie non-linéaire a été utilisée pour déterminer les mécanismes réponsables de la gélification du P(VDF-co-HFP) dans ces solvants. La 19F RMN a montré l'existence d'un réseau de polymère où des zones rigides agiraient comme des noeuds de réticulation. Ce comportement n'a été observé qu'à l'état gel: aucun réseau de polymère ou aucune zone rigide n'existent quand la solution de polymère est à l'état liquide. La nature et la fraction volumique de ces zones rigides présentes à l'état gel ont été étudiés par DSC et diffraction des rayons X. Une faible fraction de cristallites, qui correspondrait aux zones rigides, a été observée dans ces gels. Dans une troisième étape (Chapitre 4), l'impact de l'addition de silice sur la gélification du P(VDF-co-HFP) a été étudié. Pour cela, des gels polymère-silice ont été formulés dans la MEK et la 2-heptanone en utilisant deux sources de silice nanométrique: celle préparée par transfert de phase et une solution commerciale Nissan. Nous avons observé que la présence de silice impacte peu la gélification du polymère contrairement au procédé, et plus particulièrement à la présence d'eau résiduelle dans le matériau. La rhéologie non linéaire des gels dans la 2-heptanone, chargés ou non en silice, a ensuite été étudiée sous LAOS. Le comportement de ces matériaux varie avec la contrainte et passe d'un régime élastique à un régime visqueux. Cependant avant de passer dans le domaine visqueux, les gels non chargés montre un fort strain-hardening. Au contraire, l'incorporation de nanoparticules inhibe le strain-hardening. Dans une dernière étape, des films P(VDF-co-HFP)-silice ont été préparés par voie solvant. Des matériaux homogènes contenant jusqu'à 40wt% de nanoparticules ont été obtenus, avec des états de dispersions différents et finement controlés. L'impact de la concentration et de l'état de dispersion sur les propriétés mécaniques a été finalement étudiés / The general context of this PhD thesis is the development of highly filled polymer– silica model nanocomposites by solvent route, based on copolymers of vinylidene fluoride and hexafluoropropylene, denoted as P(VDF-co-HFP). Due to their unique combination of mechanical, dielectric, piezoelectric and pyroelectric properties, PVDF and VDF-copolymers combined with silica are good candidates for new advanced applications like actuation or energy harvesting. In this context, the primary objective was to understand how the filler surface chemistry and formulation parameters, as well as the solvent casting process, affect the final structure and properties of the materials. To elaborate P(VDF-co-HFP) nanocomposites with silica by solvent casting, a first step was to prepare solutions of silica and the polymer in a common solvent which will be subsequently dried. Aliphatic ketone solvents of various chain length, namely methyl ethyl ketone (MEK) and 2-heptanone, were used. For this purpose a generic approach to transfer silica nanoparticles from water to organic solvent through a transfer agent was developed. VDF-based copolymer solutions (filled or not with nanoparticles) exhibit thermoreversible gelation in ketone solvents, which may subsequently impact the processing of materials by solvent casting. Studying the phenomenology of PVDF gelation in thus of major concern for controlling the processing of those nanocomposites. No general consensus on the gelation mechanisms is found in the literature. In this context, the gelation of a semi-crystalline P(VDF-co-HFP) in MEK or 2-heptanone was studied. The gelation kinetics was investigated by tube-tilting and linear rheology. A combination of 19F Nuclear Magnetic Resonance (NMR), DSC, SAXS, WAXS and nonlinear rheology was used to probe the structure of these systems and the gelation mechanisms. 19F NMR shows the occurrence of a polymer network-like structure with rigid zones which may act as cross-links. Such a behavior is only observed in the gel state: no polymer network or rigid zones are present when the polymer solution is in the liquid state. The nature and volume fraction of the rigid zones present in the gel state were investigated with DSC and X-ray diffraction. A small crystalline fraction, which may correspond to the rigid zones, is observed in gels. In a third step, the impact of adding silica nanoparticles on the gelation kinetics of P(VDF-co-HFP) was studied. To do so, copolymer – silica gels were formulated in MEK and 2-heptanone using two sources of organic silica solutions, the one prepared previously by phase transfer and a commercial one from Nissan. We found that the presence of silica nanoparticles hardly disturbs the gelation of P(VDF-co-HFP). Conversely, the process, and more particularly the presence of residual water within the material, has a strong impact on the structure of the gels and gelation kinetics.The nonlinear rheological properties of the P(VDF-co-HFP) physical gels filled or not with silica nanoparticles were investigated in 2-heptanone only (as MEK is too volatile), using Large Amplitude Oscillatory Shear (LAOS) experiments (Chapter 5). The behavior of all materials changes from elastic at small strain to viscous at high strain amplitudes. Before abruptly changing from elastic to viscous behavior, unfilled gels exhibit strong strain-hardening. Incorporating silica nanoparticles is found to inhibit strain-hardening. In a last step, P(VDF-co-HFP) – silica solid films were obtained by solvent casting the previously prepared systems. Homogeneous materials filled up to 40 wt% of silica nanoparticles were obtained, with different and finely controlled dispersion states of nanoparticles, related to the structure of the initial gels or solutions. The impact of the concentration and dispersion state of the fillers on the mechanical performances (particularly the mechanical toughness) was investigated

PVDF

Gel

Nanocomposite

Mécanismes

Étude structurale

Crystallisation

Séparation de phase

Rhéologie

PVDF

Gel

Nanocomposite

Gelation mechanisms

Structural study

Crystallization

Phase separation

Rheology

530

Application de la stratégie de séparation de phase à la synthèse de macrocycles complexes et développement d’une réaction de thioalcynylation pour la synthèse de macrocycles sulfurés

Godin, Éric

01 1900

Les réactions de macrocyclisation sont souvent difficiles à réaliser du point de vue expérimental, puisque la dilution élevée nécessaire requiert un montage encombrant et la purification du mélange est souvent complexe en raison d’une mauvaise sélectivité de cyclisation. Ces raisons peuvent compliquer la planification des voies de synthèse, ce qui dissuade souvent les chimistes d’utiliser les macrocycles pour différentes applications. Dans les dernières années, notre groupe de recherche a développé une méthode nommée stratégie de séparation de phase. Il s’agit d’un nouveau protocole permettant de faire des réactions de macrocyclisation de façon monotope et dans un milieu beaucoup plus concentré, tout en évitant les réactions parasites d’oligomérisation, facilitant ainsi la purification des macrocycles obtenus. Cette thèse décrit le développement et l’application de stratégies permettant de surmonter les défis liés aux réactions de macrocyclisation. Dans la première partie de la thèse, le protocole de la stratégie de séparation de phase a pu être utilisé pour la synthèse de squelettes macrocycliques complexes, comme celui du produit naturel ivorenolide A (Chapitre 4) et celui de l’anti-viral vaniprevir (Chapitre 6). Ce protocole a permis de réaliser l’étape de macrocyclisation dans un milieu réactionnel 120 fois plus concentré, tout en maintenant un niveau de sélectivité de macrocyclisation élevé. Dans la deuxième partie de la thèse, le développement d’une nouvelle synthèse d’acétylures de soufre catalysée par un complexe de cuivre a permis la synthèse d’une librairie de macrocycles peptidiques (Chapitre 8). L’incorporation du motif acétylure de soufre a aussi permis la diversification de ce dernier afin de greffer plusieurs étiquettes bioactives. Pour terminer, l’étendue de la réaction intermoléculaire de la nouvelle réaction de formation de thioalcynes a été explorée (Chapitre 9). Ceci a permis la synthèse d’alcynes disubstitués par des hétéroatomes ainsi que la fonctionnalisation de peptides contenant une cystéine non protégée. Des études mécanistiques expérimentales et computationnelles de la nouvelle méthode de synthèse de thioalcynes ont aussi été réalisées. / Macrocyclization reactions can be problematic due to poor selectivity of cyclization versus oligomerization. As such, difficult purification of complex mixtures and/or the use of complex and cumbersome experimental setups are often necessary. The drawbacks can complicate synthetic pathways and deter chemists from exploring the unique chemical space of macrocycles. Our group has developed a new macrocyclization strategy called phase separation strategy, a protocol enabling one-pot macrocyclization reactions at much higher concentration. In the present thesis, the challenges associated with macrocyclization reactions are tackled by the development and the application of new strategies. First, the phase separation strategy protocol was used to synthesize the backbone of complex macrocycles like the natural product ivorenolide A (Chapter 4) and the antiviral vaniprevir (Chapter 6). With the use of the phase separation strategy protocol, macrocyclization reactions were performed at concentrations 120 times higher than traditional protocols while maintaining a high level of macrocyclization selectivity. Second, the development of a new copper-catalyzed synthesis of alkynyl sulfides for the synthesis of a macrocyclic peptide library is described (Chapter 8). The macrocyclic peptides were also tagged with several biomarkers by diversification of the resulting alkynyl sulfide motif. Finally, the scope of the intermolecular copper-catalyzed reaction was explored (Chapter 9). Using the method, bis-heteroatom substituted alkynes were synthesized and modification of unprotected cysteine sidechains was possible. Furthermore, the mechanistic reaction pathway of the new alkynyl sulfide synthesis was studied experimentally and computationally.

Macrocyclisation

Macrocycle

Séparation de phase

Glaser-Hay

Ivorenolide A

Vaniprévir

Acétylure de soufre

Cuivre

Macrocyclization

Macrocycle

Phase separation

Glaser-Hay

Alkynyl sulfide

Copper

Unmixing of Phosphorus-bearing Melts on Earth and Mars

Busche, Tamara Miranda

26 March 2019

No description available.

910

550

Unmixing

Phase separation

silicate melts

P2O5

B2O3

fluorine

viscosity

Raman spectroscopy

Tempering

SEM

DSC

immiscibility

Champagne