Synthèse de mousses silicone par la voie émulsion / Silicone foams foram emulsions

Larribe, Gabriel

13 April 2018

La première partie de ce travail recense les différentes technologies permettant de générer des mousses silicone. Des généralités sur les émulsions, sur la génération de matériaux poreux à base d’émulsions inverses concentrées, ainsi que sur le principe d’inversion de phase d’une émulsion par élévation de température sont discutées. La production de mousses silicone à partir d’émulsions a été retenue pour sa polyvalence. Des mousses ont donc été synthétisées à partir d’émulsions inverses concentrées dans un premier temps. La variation de la formulation et des paramètres de procédé ont permis de mieux appréhender les phénomènes qui gouvernent les morphologies finales des mousses. Les limites rencontrées avec les émulsions inverses (viscosité élevée, « pot life » court etc.) ont orienté notre choix sur la technologie d’inversion de phases d’émulsions directes. Nous nous sommes attardés sur la compréhension du phénomène d’inversion de phase ainsi que sur la température de point de troubles des tensioactifs afin de comprendre son influence sur les morphologies des mousses générées. Enfin les enductions ont permis de générer des films de mousse légers, fins, homogènes et à porosité ouverte après avoir réglé des problèmes de stabilité en adaptant notamment le protocole d’émulsification. / The first part of this work lists the various technologies that make possible the formation of silicone foams. Global knowledge on emulsions, on the generation of porous materials emulsion templated, as well as on the principle of emulsion phase inversion temperature (PIT) are discussed. The production of silicone foams from emulsions has been retained for its versatility. Foams were synthesized from concentrated inverse emulsions at first. The variation of the formulation and the process parameters made it possible to better understand the phenomena which govern the final morphologies of the foams. The limits encountered with inverse emulsions (high viscosity, short pot life, etc.) have led us to move our approach to phase inversion temperature technology of oil-in-water emulsions. We then focused on the comprehension of the phase inversion phenomenon, as well as on the surfactant cloud point temperature, in order to understand their influence on the morphologies of the generated foams. Finally, the coating process allowed the production of thin, light, homogeneous and open-porous foams after having solved stability issues, in particular by adapting the emulsification protocol.

Matériaux

Mousse

Silicones

Emulsion

Réticulation

Hydrosilylation

Materials

Foam

Silicon

Emulsion

Crosslinking

Hydrosilylation

620.192 072

New Routes to Functional Siloxanes: Applications of the Thermal Azide-Alkyne Cycloaddition for the Silicone Chemist

Rambarran, Talena

January 2016

Silicone oils (polysiloxane) and elastomers are a class of hydrophobic polymers with an extensive range of uses. While the high hydrophobicity can be beneficial in a variety of applications, it is not universally the case. Modification strategies for both fluid and elastomeric polydimethylsiloxane (PDMS) must be employed to create silicones with the appropriate properties for a given application, including enhanced hydrophilicity. Derivatization of PDMS leads to functional silicones with unique properties and added value. Strategies have been developed to modify both fluid and elastomeric PDMS, however, they all have varying degrees of drawbacks: the use of sophisticated equipment or expensive catalysts, restrictions to certain types of solvents, cumbersome multi-step synthetic procedures and surface reversion are some of the challenges faced. There is an opportunity to develop a simple and generic method for the controlled functionalization of PDMS. The Sharpless concept of ‘Click’ chemistry was an ideal approach to solving some of these challenges. Following nature’s lead, these reactions that are modular, wide in scope, high yielding, have simple reaction conditions and generate inoffensive byproducts. Herein, a synthetic method to functionalize silicones using the thermal Huisgen 1,3-dipolar cycloaddition of azides to alkynes is described. Initial exploration focused on the creation of inherently reactive elastomers that could be modified with a model hydrophilic moiety, poly(ethylene glycol). This was extended to the creation of amphiphilic multi-functional polysiloxanes and amphiphilic networks. Furthermore, the ‘Click’ approach was used to solve challenges faced in applications where silicones find use. The method described overcomes silicone modification challenges. The cycloaddition reaction is tolerant to many reaction conditions, is orthoganol to a variety of chemical reactions, does not require the use of a catalyst, the starting functional groups and bonds formed are stable and the reaction is high yielding, positioning the Huisgen ‘click’ reaction is an exceptional synthetic tool for the silicone chemist. / Dissertation / Doctor of Philosophy (PhD) / Polydimethylsiloxane (PDMS or silicone) fluids and elastomers are materials that find use in many applications owing to the many desirable properties they possess; personal care products, electrical insulators, sealants and biomedical are examples of products containing silicone. Native PDMS is highly hydrophobic (water repellent) and certain applications require silicones that are more compatible in environments containing water. Methods have been developed to modify both fluid and elastomeric silicones; incorporation of different molecules or polymers can enhance the properties of silicone for various applications or create unique materials. However, many of these methods have certain drawbacks: the use of sophisticated equipment, expensive ingredients, or a lack of permanence. For this reason, a new method to modify fluid and elastomeric silicones has been developed. The new method is based on the concept of ‘Click’ chemistry and has overcome some of challenges associated with other modification methods.

silicones

azide-alkyne cycloaddition

click chemistry

modification

Huisgen 1,3 dipolar cycloaddition

thermal

PDMS

SYNTHESIS, CHARACTAERIZATION AND COMPUTER SIMULATIONS OF STEREOREGULAR POLY-(METHYLPHENYLSILOXANE)

AHN, HYEON WOO

11 June 2002

No description available.

silicones

steroregular

poly(methlphenylsiloxane)

antonic ring-opening polymerization

rotational isomeric

cis-trimethyltriphenlcyclotrisiloxane

Synthesis and Property Optimization of Ordered, Aryl Dense Polysiloxanes Using Boron Catalysis

Schneider, Alyssa F.

January 2019

Silicones are widely used polymeric materials due to their unique properties. The material properties of silicones may be altered by incorporating various organic groups. Traditional methods for linear silicone synthesis involve ring-opening polymerization, which leaves the growing chain susceptible to acid or base mediated chain redistribution and the formation of cyclic monomer byproducts. The Piers-Rubinsztajn (PR) reaction is an alternative siloxane synthetic route that avoids the use of tin- or platinum- based, or of Brønsted acid/base catalysts. Siloxane bond formation is catalyzed by tris(pentafluorophenyl)borane (B(C6F5)3) (R’3Si-H + RO-SiR”3 → R’3Si-O-SiR”3 + RH); alkoxysilanes can be replaced with silanols or alkoxybenzenes. The catalytic activity of B(C6F5)3 was shown to be hindered by trace water in solution; water acts as a Lewis base coordinating to B(C6F5)3. Since the hydrate-free form of B(C6F5)3 is required to initiate a PR reaction, water can act as an inhibitor. In a somewhat contradictory fashion, water was also shown to react with hydrosilanes via a B(C6F5)3 catalyzed hydrolysis reaction to give silanols, that themselves are reagents for the process. The reactivity of alkoxysilanes (or aryl ethers) in the PR reaction was found to be much quicker than water. This was exploited in the synthesis of Ax(AB)yAx triblock copolymers. The aryl rich AB core was first synthesized using the PR reaction. Excess silicone condensed via hydrolysis forming the A blocks. This method of exploiting relative reactivity to tune structure was applied to elastomers made using a single linker (eugenol) with multiple functional groups – elastomer morphology was controlled by changing order of addition. The development of aryl dense silicones is of interest for use in electronic devices. Phenylmethyl homopolymers and highly ordered phenyl pendant copolymers (Ph/Si ratio of 0.5-1.5) were synthesized from monomers to give polymers with high refractive indices (1.51-1.59) and Mw up to 170 kDa. Statistically relevant libraries of aryl functional silicones were developed using combinatorial chemistry in order to analyze their structure-property relationship. Incorporating aromatic groups into silicones worked to elevate thermal stability, refractive index and improve the mechanical strength of silicone rubbers. / Thesis / Doctor of Science (PhD) / Silicone fluids and elastomers possess numerous desirable characteristics which leads to their use in a wide range of applications in the automotive, electronics and biomedical fields, among others. Developing techniques to create well defined, ordered, modified silicones with improved optical properties, mechanical strength and thermal stability was the main focus of this thesis. These objectives were accomplished by incorporating aromatic groups into silicones using boron catalysis. Following the initial (intended) Piers-Rubinsztajn reaction, atmospheric moisture was utilized to promote further polymerization. Statistically relevant libraries of silicone elastomers were prepared using both standard and combinatorial chemistry techniques. This library of elastomers permitted the analysis of trends associated with small changes in elastomer formulation, which could not be accomplished using traditional one-by-one reaction methods in a timely fashion. The modified silicone materials exhibited high refractive indices (up to 1.59), elevated stiffness and improved thermal stability (maintain structure up to 500 °C) when compared to previously synthesized polymers.

Siloxanes

Piers-Rubinsztajn

Boron Catalysis

Aryl Silicones

Functional Elastomers

High-Throughput Synthesis

Hydrolysis

Estudo experimental comparativo de implantes arteriais : politetrafluoretileno expandido (PTFE) versus polidimetilsiloxano com reforço de tecido de poliéster / Experimental comparative study of arterial implants - expanded polytetrafluoroethylene (PTFE) versus dimethylpolysiloxane reinforced with polyester fabric

Appolonio, Fernanda

30 May 2014

INTRODUÇÃO: Os enxertos vasculares sintéticos disponíveis atualmente apresentam baixos índices de patência, quando utilizados na revascularização de vasos de pequeno calibre, e possuem resultados inferiores quando comparados ao uso de veias autólogas em derivações infrageniculares. Nova prótese de pequeno calibre confeccionada em silicone (polidimetilsiloxano, PDMS) com reforço de tecido de poliéster foi desenvolvida e comparada à prótese de PTFE. OBJETIVOS: Analisar, em modelo experimental em coelhos, o tubo de PDMS como material para prótese vascular e compará-lo a prótese de PTFE. MÉTODOS: Quarenta coelhos foram submetidos a interposição na aorta infrarrenal de próteses de 4mm de diâmetro, sendo 20 animais com PDMS e 20 com PTFE (grupo controle). Foi medido o tempo de clampeamento e realizada arteriografia retrógrada da aorta para avaliar a patência das próteses. Para avaliar a endotelização das próteses foi realizada microscopia eletrônica de maneira amostral pareada. RESULTADOS: Vinte e cinco animais (62,5%) não apresentaram intercorrências pós-operatórias; oito (20%) morreram precocemente e sete (17,5%) ficaram paraplégicos no pós-operatório imediato (e foram sacrificados), sendo que esses animais não foram incluídos nas análises de patência. Não foi observada diferença entre os grupos quanto à evolução com complicações pós-operatórias (p=0,526) e quanto ao tempo de clampeamento da aorta (p=0,299). A patência em 30 dias foi de 100% para as duas próteses. Aos 60 dias, a taxa de patência do PDMS foi de 92,3% (± 7,4), e de 73,8% (±13,1) em 90 dias; as próteses de PTFE tiveram taxas de patência de 87,5% (± 11,7) aos 60 e 90 dias. Não foi observada diferença significativa entre as taxas de patência dos grupos (p=0,62). Não houve diferença siginificativa entre os grupos quanto ao grau de estenose das próteses patentes (p=0,650) à avaliação angiográfica. A microscopia eletrônica mostrou crescimento endotelial limitado às regiões próximas às anastomoses nos dois tipos de próteses. CONCLUSÃO: O PDMS mostrou-se passível de utilização como prótese vascular, com resultados comparáveis aos do PTFE no modelo utilizado / INTRODUCTION: Synthetic vascular grafts currently available have suboptimal patency rates in small-diameter vessels and inferior outcomes in below-the-knee arterial bypass procedures when compared to the use of autologous vein. A new small vessel prosthesis made of silicone (polydimethylsiloxane, PDMS) and reinforced with polyester fabric was developed and compared to the standard PTFE prosthesis. OBJECTIVES: On a rabbit experimental model, we compared the outcomes of new PDMS vascular prostheses with PTFE vascular prostheses. METHODS: Forty rabbits underwent infra-renal aorta replacement with 4 mm diameter prostheses, twenty animals with PDMS and twenty animals with PTFE (control group). Aortic clamping time was measured and retrograde aortic angiography was performed to assess patency. Histological graft samples were examined by electron microscopy to evaluate prostheses endothelialization. RESULTS: Twenty-five (62,5%) animals had good surgical outcome; eight animals (20%) expired and seven animals (17.5%) became paraplegic (and subsequently sacrificed) during early follow up and were not included in anastomosis patency analysis. Postoperative complications (death, paraplegia) rates (p=0,526) and aortic clamping times (p=0,299) were comparable in both groups. Patency rates in 30 days were 100% for both grafts. At 60 days, patency rate for PDMS was 92,3% (±7,4), and 73,8% (±13,1) at 90 days. PTFE grafts had patency rates of 87,5% (±11,7) at 60 and 90 days. No statistically significant difference was found in between groups for patency rates (p=0,62). No statistically significant difference for stenosis was found on angiographical analysis in between groups (p=0,650). Electron microscopy revealed limited anastomotic endothelial ingrowth in both prostheses used. CONCLUSION: In this experimental model, PDMS and PTFE vascular prostheses had comparable outcomes and PDMS prosthesis could be used as a vacular graft

Aorta abdominal/cirurgia

Aorta abdominal/surgery

Blood vessel prosthesis

Coelhos

Comparative study

Dimethylpolysiloxanes

Dimetilpolisiloxanos

Estudo comparativo

Implantes experimentais

Implants experimental

Poliésteres

Politetrafluoretileno

Polyesters

Polytetrafluoroethylene

Prótese vascular

Rabbits

Silicones

Silicones

Estudo experimental comparativo de implantes arteriais : politetrafluoretileno expandido (PTFE) versus polidimetilsiloxano com reforço de tecido de poliéster / Experimental comparative study of arterial implants - expanded polytetrafluoroethylene (PTFE) versus dimethylpolysiloxane reinforced with polyester fabric

Fernanda Appolonio

30 May 2014

INTRODUÇÃO: Os enxertos vasculares sintéticos disponíveis atualmente apresentam baixos índices de patência, quando utilizados na revascularização de vasos de pequeno calibre, e possuem resultados inferiores quando comparados ao uso de veias autólogas em derivações infrageniculares. Nova prótese de pequeno calibre confeccionada em silicone (polidimetilsiloxano, PDMS) com reforço de tecido de poliéster foi desenvolvida e comparada à prótese de PTFE. OBJETIVOS: Analisar, em modelo experimental em coelhos, o tubo de PDMS como material para prótese vascular e compará-lo a prótese de PTFE. MÉTODOS: Quarenta coelhos foram submetidos a interposição na aorta infrarrenal de próteses de 4mm de diâmetro, sendo 20 animais com PDMS e 20 com PTFE (grupo controle). Foi medido o tempo de clampeamento e realizada arteriografia retrógrada da aorta para avaliar a patência das próteses. Para avaliar a endotelização das próteses foi realizada microscopia eletrônica de maneira amostral pareada. RESULTADOS: Vinte e cinco animais (62,5%) não apresentaram intercorrências pós-operatórias; oito (20%) morreram precocemente e sete (17,5%) ficaram paraplégicos no pós-operatório imediato (e foram sacrificados), sendo que esses animais não foram incluídos nas análises de patência. Não foi observada diferença entre os grupos quanto à evolução com complicações pós-operatórias (p=0,526) e quanto ao tempo de clampeamento da aorta (p=0,299). A patência em 30 dias foi de 100% para as duas próteses. Aos 60 dias, a taxa de patência do PDMS foi de 92,3% (± 7,4), e de 73,8% (±13,1) em 90 dias; as próteses de PTFE tiveram taxas de patência de 87,5% (± 11,7) aos 60 e 90 dias. Não foi observada diferença significativa entre as taxas de patência dos grupos (p=0,62). Não houve diferença siginificativa entre os grupos quanto ao grau de estenose das próteses patentes (p=0,650) à avaliação angiográfica. A microscopia eletrônica mostrou crescimento endotelial limitado às regiões próximas às anastomoses nos dois tipos de próteses. CONCLUSÃO: O PDMS mostrou-se passível de utilização como prótese vascular, com resultados comparáveis aos do PTFE no modelo utilizado / INTRODUCTION: Synthetic vascular grafts currently available have suboptimal patency rates in small-diameter vessels and inferior outcomes in below-the-knee arterial bypass procedures when compared to the use of autologous vein. A new small vessel prosthesis made of silicone (polydimethylsiloxane, PDMS) and reinforced with polyester fabric was developed and compared to the standard PTFE prosthesis. OBJECTIVES: On a rabbit experimental model, we compared the outcomes of new PDMS vascular prostheses with PTFE vascular prostheses. METHODS: Forty rabbits underwent infra-renal aorta replacement with 4 mm diameter prostheses, twenty animals with PDMS and twenty animals with PTFE (control group). Aortic clamping time was measured and retrograde aortic angiography was performed to assess patency. Histological graft samples were examined by electron microscopy to evaluate prostheses endothelialization. RESULTS: Twenty-five (62,5%) animals had good surgical outcome; eight animals (20%) expired and seven animals (17.5%) became paraplegic (and subsequently sacrificed) during early follow up and were not included in anastomosis patency analysis. Postoperative complications (death, paraplegia) rates (p=0,526) and aortic clamping times (p=0,299) were comparable in both groups. Patency rates in 30 days were 100% for both grafts. At 60 days, patency rate for PDMS was 92,3% (±7,4), and 73,8% (±13,1) at 90 days. PTFE grafts had patency rates of 87,5% (±11,7) at 60 and 90 days. No statistically significant difference was found in between groups for patency rates (p=0,62). No statistically significant difference for stenosis was found on angiographical analysis in between groups (p=0,650). Electron microscopy revealed limited anastomotic endothelial ingrowth in both prostheses used. CONCLUSION: In this experimental model, PDMS and PTFE vascular prostheses had comparable outcomes and PDMS prosthesis could be used as a vacular graft

Aorta abdominal/cirurgia

Coelhos

Dimetilpolisiloxanos

Estudo comparativo

Implantes experimentais

Poliésteres

Politetrafluoretileno

Prótese vascular

Silicones

Aorta abdominal/surgery

Blood vessel prosthesis

Comparative study

Dimethylpolysiloxanes

Implants experimental

Polyesters

Polytetrafluoroethylene

Rabbits

Silicones

Análise histológica e morfométrica de área cruenta tratada com membrana de silicone : estudo em rato /

Mendes Junior, Eduardo Carlos da Silveira.

January 2005

Orientador: Fausto Viterbo / Resumo: O estudo avaliou o efeito da membrana de silicone no tratamento de área cruenta de ferimento. Método: O estudo experimental foi realizado com 30 ratos Wistar, machos, divididos igualmente em três grupos: no grupo GG a área cruenta foi tratada com gazes, no grupo GH com homoenxerto e no grupo GS com membrana de silicone. Após quatorze dias de pós-operatório, os animais foram sacrificados. Os atributos estudados foram a variação da massa corporal dos animais; o estudo histológico quantificado por análise morfométrica avaliando o número de neovasos, fibroblastos, fibras colágenas, leucócitos, monócitos; e a medida da espessura da área cruenta através de régua micrométrica. Os dados foram submetidos à análise estatística. Resultados: Não houve diferença significativa entre as massas dos animais. Observou-se um predomínio de neovasos, fibroblastos e a espessura de área cruenta nos animais do grupo GS. Houve predomínio de leucócitos e monócitos nos animais do grupo GH. Também foi observado que não houve diferença significativa entre os grupos quanto às fibras colágenas. Conclusão: A membrana de silicone proporcionou tecido de granulação com maior número de neovasos, fibroblastos e maior espessura. / Abstract: The purpose of this study was to evaluate effects of the silicone membrane on treatment of wound healing base. Methods: The experimental study was with thirty Wistar male rats equally divided into three groups. Group GG the would healing base was treatment with rayon gauz, group GH with homograft and group GS with silicone membrane. The animals were sacrificed 14 postoperative day. This study evaluated weigh of rats; histological and morphometric analysis of the number of neovessels, fibroblasts, collagen fibers, leucocytes and monocytes; and measurement of wound healing base thickness was done with micrometer straight edge . The data were submitted to statistical analysis. Results: The weight of rats was similar among groups. The analysis showed considerable increased number of neovessels, fibroblasts and the measurement of would healing base thickness on the group GS; considerable increased number of leucocytes and height increased number of monocytes on the group GH. Similar pattern was observed in number of collagen fibers among three groups. Conclusion: The silicone membrane supportered wound healing base with considerable increased number of neovessels, fibroblasts and enlarging measurement of thickness. / Mestre

Wound healing. eng

Silicone membrane. eng

Burns. eng

Etude des matériaux isolants d'encapsulation pour la montée en température des modules de puissance haute tension

Bechara Keyrouz, Mireille

10 November 2011

Les travaux effectués au cours de cette thèse ont porté sur la recherche et l'étude expérimentale de matériaux isolants électriques capables de satisfaire la fonction d'encapsulation de composants et modules de puissance haute tension à température de jonction élevée. Le travail réalisé inclut un état de l'art des matériaux isolants solides haute température disponibles commercialement. Il est ressorti de cette étude un sévère compromis entre tenue en température et dureté du matériau. Deux voies d'étude ont été considérées en parallèle, afin de répondre aux deux objectifs suivants. Le premier est une tenue en tension élevée avec une tenue en température minimale de 250 °C, mettant en oeuvre une encapsulation de volume susceptible d'être plus performante que le gel silicone. Le second objectif est une tenue en tension moyenne (inférieure à 1,2 kV) avec une tenue en température supérieure à 300 °C, faisant appel à une encapsulation de surface a priori utilisable jusqu'à 350 °C. Deux matériaux élastomères silicones chargés en SiO2 et un polymère semi-cristallin (parylène fluoré, PA-F) ont ainsi été respectivement retenus pour l'étude. L'analyse des propriétés diélectriques et électriques, réalisée pour la première fois sur ces matériaux à haute température a constitué l'objectif principal de ce travail de thèse en corrélation avec l'étude de l'évolution du comportement physico-chimique et structural des matériaux. Ainsi, pour l'étude sur les élastomères silicones chargés, les caractérisations thermiques menées ont permis de déterminer les températures limites d'utilisation entre -60 °C et 250 °C sous air. L'étude des propriétés diélectriques sous faible champ montre un comportement similaire pour les deux élastomères et a permis de mettre en évidence les différentes transitions de phases à basse température (de -150 °C à 25 °C). A haute température (de 25 °C à 300 °C), l'analyse a permis d'identifier aux basses fréquences une relaxation vers 120 °C, sensible au traitement thermique préalable du matériau, reliée à l'absorption d'humidité. Il est possible d'évacuer l'eau absorbée par un recuit adapté à température supérieure à 120°C. L'évolution de la conductivité DC entre 200 ˚C et 300 ˚C met en évidence des valeurs de l'ordre de 10 -13 Ω-1.cm-1 à 300 °C. Ces faibles valeurs montrent l'intérêt de ces élastomères silicones pour l'isolation électrique dans cette gamme de température. En ce qui concerne le PA-F, les caractérisations thermiques ont pu confirmer que ce matériau est stable pour des températures inférieures ou égales à 350 °C même sous air. Les mesures électriques ont permis de montrer des valeurs de conductivité DC jusqu'à 350 °C inférieures à 10-12 Ω-1 cm-1, caractéristiques d'un matériau toujours isolant. Le PA-F conserve un champ de rupture compris entre 2 et 4 MV.cm-1 jusqu'à 350°C. Par ailleurs, le PA-F a montré une amélioration des propriétés diélectriques à faible champ avec l'augmentation de son épaisseur jusqu'à 50 micromètres. Il a ainsi été montré que cet effet est attribuable à une augmentation de la cristallisation induite par l'épaisseur. De même, l'effet d'un recuit a été étudié, montrant une diminution de la conductivité DC ainsi qu'une augmentation de la rigidité diélectrique, corrélées à un phénomène de cristallisation induit ici par la température. Ce phénomène apparaît donc bénéfique pour les propriétés d'isolation. Le PA-F présente ainsi des propriétés diélectriques initiales exceptionnelles jusqu'à 350 °C, offrant une perspective de solution d'encapsulation de surface, à confirmer par une étude de vieillissement sous haute température à long terme.

Matériaux isolants

Encapsulation

Propriétés diélectriques

Haute température

Haute tension

Parylène fluoré

Elastomères silicones

Investigation of optical loss changes in siloxane polymer waveguides during thermal curing and aging

Hegde, Shashikant G.

02 January 2008

In high performance electronic systems, with increasing chip speed and larger number of processors, the system performance is being limited by off-chip metal interconnects. In such systems, polymer optical waveguides are being considered to replace electrical interconnects because of their high capacity for bandwidth and less constraints on interconnect length. The optical loss in the polymer optical waveguides is the key criterion used to evaluate their performance, and is significantly affected by thermal curing and aging. The evolution of degree-of-cure is determined from differential scanning calorimetry and compared to optical absorption from spectroscopy. Optical loss due to scattering mechanisms is related to local density fluctuations, which is studied using dielectric analysis. Based on the optical loss trends in uncladded and cladded waveguides, the underlying mechanisms for the optical loss variations are proposed and a cure process schedule to realize the lowest optical loss is recommended. Process-induced thermal stresses can also affect the polymer waveguide by introducing stress birefringence. The stress-optical coefficients of the siloxane polymer are extracted and employed in a numerical modeling method to determine the stress-induced birefringence in an optical waveguide system. The thermal-aging dependent optical loss is determined for waveguide samples at several different accelerated temperature conditions. To get the field-use conditions, the temperature distribution in the vicinity of the embedded laser and the polymer waveguide is determined. Using such thermal experimental data, the analytical reliability models were employed to relate the optical loss with time, and provide a practical way of determining whether the optical waveguides would perform within the optical loss budget during field-use conditions.

Polymer waveguides

Optical loss

Spectroscopy

Siloxanes

Thermal aging

Cure

Silicones

Curing

Optical interconnects

Optical wave guides

Polymers

Reconfigurable silicon photonic devices for optical signal processing

Atabaki, Amir Hossein

07 July 2011

Processing of high-speed data using optical signals is a promising approach for tackling the bandwidth and speed challenges of today's electronics. Realization of complex optical signal processing functionalities seems more possible than any time before, thanks to the recent achievements in silicon photonics towards large-scale photonic integration. In this Ph.D. work, a novel thermal reconfiguration technology is proposed and experimentally demonstrated for silicon photonics that is compact, low-loss, low-power, fast, with a large tuning-range. These properties are all required for large-scale optical signal processing and had not been simultaneously achieved in a single device technology prior to this work. This device technology is applied to a new class of resonator-based devices for reconfigurable nonlinear optical signal processing. For the first time, we have demonstrated the possibility of resonance wavelength tuning of individual resonances and their coupling coefficients. Using this new device concept, we have demonstrated tunable wavelength-conversion through four-wave mixing in a resonator-based silicon device for the first time.

Thermal reconfiguration

Nonlinear optics

Optical signal processing

Silicon photonics

Optical resonators

Fiber optics

Photonics

Optical fibers

Silicones