Membranas poliméricas de intercambio iónico con aplicación en pilas de combustible de temperatura intermedia

Barjola Ruiz, Arturo

03 May 2023

Tesis por compendio / [ES] El desarrollo de membranas poliméricas capaces de actuar como electrolito en pilas de combustible tipo PEMFC a temperaturas intermedias constituye uno de los principales retos para conseguir la generación eficiente de energía por medio de estos dispositivos. Actualmente, las membranas basadas en polímeros perfluorosulfonados como el Nafion® son las más extendidas en pilas de combustible, ya que presentan una buena conductividad protónica además de ser estables mecánica y químicamente. Sin embargo, este tipo de membranas no son capaces de ofrecer buenos rendimientos por encima de 80 ¿C. En este sentido, el objetivo fundamental de esta tesis ha sido la síntesis y caracterización de membranas poliméricas que permitan su potencial utilización en el rango de temperaturas intermedias, por encima de 100 ¿C, donde la cinética de los electrodos y el transporte de protones a través de la membrana mejoran considerablemente, aumentando con ello el rendimiento de la celda. La investigación llevada a cabo se ha centrado en dos tipos de polímeros: poli(eter-eter-cetona) sulfonada (SPEEK) y polibencimidazol (PBI). Las membranas basadas en SPEEK ofrecen una elevada conductividad protónica y una buena estabilidad tanto mecánica como química. Si bien, estas propiedades dependen drásticamente de su grado de sulfonación. Así, altos grados de sulfonación resultan en muy buenas conductividades protónicas, aunque por el contrario, originan un excesivo hinchamiento de las membranas provocando un empeoramiento de sus propiedades mecánicas. Además, cuando la temperatura supera los 80 ¿C su conductividad disminuye debido a la deshidratación de la membrana. La estrategia seguida en este caso para mantener las propiedades mecánicas y la conductividad de las membranas basadas en SPEEK a temperaturas intermedias ha consistido en utilizar un polímero con un índice de intercambio catiónico no excesivamente alto (1.75 meq g-1), el cual ha sido dopado con dos tipos de compuestos organometálicos diferentes de tipo ZIF (Zeolitic Imidazolate Framework ) y con una mezcla de ambos. Este tipo de compuestos constituyen una subclase de los conocidos como Metal Organic Framework (MOF), los cuales adoptan una estructura tipo zeolita donde la parte orgánica está constituida por un anillo de imidazol y el nodo inorgánico es un metal. En este caso Zinc para el Z8 y Cobalto para el Z67. Las membranas compuestas SPEEK-ZIF mejoraron claramente las prestaciones de las de SPEEK puro a temperaturas intermedias. En base a los resultados anteriores, se seleccionaron las membranas dopadas con ZIF-67 para su evaluación en monocelda donde ofrecieron valores superiores a los de las membranas de SPEEK puro sin la adición de cargas y a los obtenidos con membranas de Nafion®117 a temperaturas superiores a 100 °C. En el caso de las membranas en base PBI, estas han sido capaces de ofrecer valores elevados de conductividad a altas temperaturas cuando eran dopadas con ácido fosfórico. Sin embargo, la pérdida del ácido por parte de la membrana (leaching) con el tiempo de operación y la degradación que este ácido provoca en los componentes de la celda, hacen que sea necesaria la utilización de otros agentes dopantes no volátiles y menos agresivos capaces de aportar al polímero la conductividad de la que carece. Los líquidos iónicos son sales fundidas a temperatura ambiente que poseen presiones de vapor despreciables y ofrecen buenas conductividades a temperaturas elevadas. En esta tesis, se prepararon por el método de casting, membranas de PBI conteniendo el líquido iónico 1-butil-3-metil imidazolio bis(trifluorometil sulfonil) imida (BMIM-NTf2) en diferentes porcentajes. Estas membranas alcanzaron a partir de un 10 % wt. de líquido iónico un valor de conductividad del orden de 10-2 S cm-1 a 160 ¿C. Señalando su potencial como electrolito polimérico basado en PBI libre de ácido fosfórico. / [CA] El desenvolupament de membranes polimèriques vàlides per a actuar com a electròlit en piles de combustible tipus PEMFC a temperatures intermèdies. Constitueix un dels reptes principals per aconseguir la generació eficient d'energia amb aquests dispositius. Actualment, les membranes basades en polímers perfluorosulfonats com el Nafion® són les més utilitzades en piles de combustible, ja que presenten una bona conductivitat protònica a més de tindre una bona estabilitat química i mecànica. Tot i això, aquest tipus de membranes no oferixen bons rendiments a temperaturas superiors a 80 ¿C. En aquest sentit, l'objectiu fonamental d'aquesta tesi ha segut la síntesi i caracterització de membranes polimèriques amb les característiques adequades per poder treballar a temperatures intermèdies, per damunt de 100 ¿C. En aquestes condicions la cinètica dels elèctrodes i el transport de protons a través de la membrana milloren considerablement augmentant amb això el rendiment de la cel·la. La investigació duta a terme s'ha centrat en dos tipus de polímers: poli(eter-eter-cetona) sulfonada (SPEEK) i polibencimidazol (PBI). Les membranes basades en SPEEK ofereixen una elevada conductivitat protònica i una bona estabilitat tant mecànica com a química. No obstant això, aquestes caracteristiques depenen dràsticament del seu grau de sulfonació. Així, alts graus de sulfonació resulten en molt bones conductivitats protòniques. Encara que per contra, originen un excessiu unflament de les membranes en aigua calenta provocant un empitjorament de les seves propietats mecàniques. A més, quan la temperatura supera els 80 ¿C la seva conductivitat baixa a causa de la deshidratació de la membrana. L'estratègia seguida en aquest cas per mantenir les propietats mecàniques i la conductivitat de les membranes basades en SPEEK a temperatures intermèdies. Ha segut partir d'un polímer amb un índex d'intercanvi catiònic no gaire alt (1.75 meq g-1). El qual ha segut dopat amb dos tipus de compostos órganometàl.lics diferents de tipus ZIF (Zeolitic Imidazolate Framework) (ZIF) i amb una barreja de tots dos. Aquest tipus de compostos constitueixen una subclasse dels coneguts com a Metal Organic Framework (MOF). Els quals adopten una estructura tipus zeolita on la part orgànica està constituïda per un anell d'imidazol i el node inorgànic és el metall. En aquest cas Zinc per al Z8 i Cobalt per al Z67. Les membranes compostes SPEEK-ZIF van millorar clarament les prestacions de les de SPEEK pur a temperatures intermèdies. En base als resultats anteriors es van seleccionar les membranes dopades amb ZIF-67 per a la seva avaluació en monocel·la on van oferir valors superiors als de les membranes de SPEEK pur sense l'addició de càrregues i als obtinguts amb membranes de Nafion®117 en les mateixes condicions a temperatures superiors a 100 °C. En el cas de les membranes en base PBI, aquestes han oferit valors elevats de conductivitat a altes temperatures, quan han segut dopades amb àcid fosfòric. Tot i això, la pèrdua de l'àcid per part de la membrana (leaching) amb el temps d'operació i la degradació que aquest àcid provoca en els components de la cel·la, fan que siga necessària la utilització d'altres agents dopants no volàtils i menys agressius capaços d'aportar al polímer conductivitat iònica. Els líquids iònics són sals foses a temperatura ambient que tenen pressions de vapor molt febles i ofereixen bones conductivitats a temperatures elevades. En aquesta tesi es van preparar pel mètode de càsting, membranes de PBI contenint el líquid iònic 1-butil-3-metil imidazoli bis(trifluorometil sulfonil) imida (BMIM-NTf2) en diferents percentatges. Aquestes membranes van assolir a partir d'un 10% wt. de líquid iònic un valor de conductivitat de l'ordre de 10-2 S cm-1 a 160 ¿C. Assenyalant el seu potencial com a electròlit polimèric basat en PBI lliure d'àcid fosfòric. / [EN] The development of polymeric membranes capable of acting as an electrolyte in a proton exchange membrane fuel cells (PEMFC) at intermediate temperatures. It constitutes one of the main challenges to achieve efficient energy generation through these kinds of devices. Currently, membranes based on perfluorosulfonated polymers such as Nafion® are the most widespread in fuel cells, since they have good proton conductivity as well as being mechanically and chemically stable. However, these types of membranes are not capable of offering good performance above 80 ¿C. In this sense, the main objective of this thesis has been the synthesis and characterization of polymeric membranes with potential use in the range of intermediate temperatures, above 100 ¿C, where the kinetics of the electrodes and the transport of protons through of the membrane and the performance of the cell are greatly improved. The research carried out has focused on two types of polymers: sulfonated poly(ether-ether-ketone) (SPEEK) and polybenzimidazole (PBI). SPEEK-based membranes offer high proton conductivity and good mechanical and chemical stability. However, their properties depend dramatically on its degree of sulfonation. Thus, high degrees of sulfonation result in excellent proton conductivities. On the other hand, the large amount of sulphonic groups in the membrane cause an excessive swelling in hot water, leading to a worsening of their mechanical properties, even reaching its dissolution. Furthermore, as also happens with perfluorosulfonated membranes, when the temperature is increased above 80 ¿C their proton conductivity decreases due to membrane dehydration. Focused on maintain the mechanical properties and conductivity of SPEEK-based membranes at intermediate temperatures. Membranes have been prepared from a polymer with a not excessively high cation exchange rate (1.75 meq g-1). Which has been doped with two different ZIF-type (Zeolitic Imidazolate Framework) organometallic compounds and with a mixture of both. This type of compounds constitutes a subclass of those known as Metal Organic Framework (MOF). Which adopt a zeolite-type structure where the organic part is made up of an imidazole ring and the inorganic node is the metal. In this case Zinc for Z8 and Cobalt for Z67. SPEEK-ZIF. Composite membranes clearly improved the performance of pure SPEEK membranes at intermediate tempe-ratures. Based on the previous results, the membranes doped with ZIF-67 were selected for their evaluation in a single fuel cell, where they offered higher values than those of the pure SPEEK membranes without the addition of fillers and those obtained with membranes of Nafion®117 under the same conditions at temperatures above 100 °C. PBI based membranes, have been capable of offering high conductivity values at high temperatures, when they have been doped with phosphoric acid. However, the loss of acid by the membrane (leaching) with the operation time and the degradation that this acid causes in the cell components. In this sense, it is necessary to explore the use of other non-volatile and less aggressive doping agents capable of providing ionic conductivity to the polymer. Ionic liquids are molten salts at room temperature that have negligible vapor pressures and offer good conductivities at elevated temperatures. In this thesis, PBI membranes containing the ionic liquid 1-butyl-3-methyl imidazolium bis(trifluoromethyl sulfonyl)imide (BMIM-NTf2) at different percentages were prepared by the casting method. These membranes containing 10 wt.% of ionic liquid reached a conductivity value in the range of 10-2 S cm-1 at 160 ¿C. Noting its potential as a phosphoric acid-free PBI-based polymeric electrolyte. / This work was sponsored by the Ministerio de Economia y Competitividad (MINECO) under the project ENE/2015-69203-R. The authors acknowledge the Electron Microscopy Service from Universitat Politècnica de València for the use of instruments and staff assistance. / Barjola Ruiz, A. (2023). Membranas poliméricas de intercambio iónico con aplicación en pilas de combustible de temperatura intermedia [Tesis doctoral]. Universitat Politècnica de València. https://doi.org/10.4995/Thesis/10251/193081 / Compendio

Polybenzimidazole (PBI)

Conductivity

Membranes

Ionic Liquids

Zeolitic Imidazolate Framework (ZIF)

Poliéter éter cetona sulfonada (SPEEK)

Polibencimidazol (PBI).

Conductividad

Membranas

Líquidos Iónicos

MAQUINAS Y MOTORES TERMICOS

An Experimental Approach for the Determination of the Mechanical Properties of Base-Excited Polymeric Specimens at Higher Frequency Modes

Kucher, Michael, Dannemann, Martin, Böhm, Robert, Modler, Niels

27 October 2023

Structures made of the thermoplastic polymer polyether ether ketone (PEEK) are widely used in dynamically-loaded applications due to their high-temperature resistance and high mechanical properties. To design these dynamic applications, in addition to the well-known stiffness and strength properties the vibration-damping properties at the given frequencies are required. Depending on the application, frequencies from a few hertz to the ultrasonic range are of interest here. To characterize the frequency-dependent behavior, an experimental approach was chosen and applied to a sample polymer PEEK. The test setup consists of a piezoelectrically driven base excitation of the polymeric specimen and the non-contact measurement of the velocity as well as the surface temperature. The beam’s bending vibrations were analyzed by means of the Timoshenko theory to determine the polymer’s storage modulus. The mechanical loss factor was calculated using the half-power bandwidth method. For PEEK and a considered frequency range of 1 kHz to 16 kHz, a storage modulus between 3.9 GPa and 4.2 GPa and a loss factor between 9 103 and 17 103 were determined. For the used experimental parameters, the resulting mechanical properties were not essentially influenced by the amplitude of excitation, the duration of excitation, or thermal degrad.ation due to self-heating, but rather slightly by the clamping force within the fixation area.

info:eu-repo/classification/ddc/620

ddc:620

Indoor air quality and health risk assessment for workers in packaging production factory, Can Tho city, Viet Nam

Pham, Van Toan, Nguyen, Thi Phuong, Nguyen, Thanh Giao

27 February 2019

The production of packaging goods for cement is one of the most important industries, contributing to income of many workers. Production activities, however, cause air pollution and health risk. The study was conducted to assess air quality and health risks of workers through air quality data and interviewing employees from 2016-2017 at a packaging production factory, Can Tho city, Vietnam. The findings indicated that temperature and noise exceeded the national technical regulations (QCVN 22-26: 2016/TT-BYT) while the humidity, wind speed, light, respirable particles, toxic gases (benzene, toluene, methyl ethyl ketone (MEK)) were in accordance with the national standards for occupational health and safety (Decision 3733/2002/QĐ-BYT). However, health risk assessment showed that long-term exposure in this factory would result in severe impact on health of workers due to indoor air pollution. The non-cancer risk caused by benzene, toluene and MEK for workers in the working sections such as printing, film coating, weaving, spinning and pasting was expected to cause serious impact on workers’ health. The cancer risk (benzene) index was in the range of 1.3 x 10-5 to 7.7 x 10-4 and averaged at 3.3 x 10-4. The study clearly showed that benzene greatly contributes to serious workers’ health effects. Appropriate protection measures such as treatment of air pollutants, regular health check, wearing protective clothes should be implemented to mitigate impact of indoor air pollution at the factory. More importantly, it is necessary to reconsider the standard values of benzene, toluene, methyl ethyl ketone to ensure health of workers. / Công nghiệp sản xuất bao bì xi măng thuộc lĩnh vực ngành xây dựng là một trong những ngành công nghiệp quan trọng, đã góp phần mang lại nguồn thu nhập cho nhiều người lao động. Tuy nhiên hoạt động sản xuất cũng gây ra những vấn đề về ô nhiễm môi trường không khí và rủi ro sức khỏe. Nghiên cứu được thực hiện nhằm đánh giá mức độ ô nhiễm môi trường không khí và đánh giá rủi ro sức khỏe của công nhân thông qua số liệu chất lượng môi trường không khí và phỏng vấn trực tiếp người lao động trong khoảng thời gian từ 2016 - 2017. Kết quả nghiên cứu cho thấy nhiệt độ, tiếng ồn vượt qui chuẩn cho phép (QCVN 22-26:2016/TT-BYT) trong khi độ ẩm, tốc độ gió, ánh sáng, bụi hô hấp, hơi khí độc (Benzen, toluen, methyl ethyl ketone) đạt chuẩn cho phép theo tiêu chuẩn vệ sinh an toàn lao động (QĐ 3733/2002/QĐ-BYT). Tuy nhiên, kết quả đánh giá rủi ro sức khỏe cho thấy công nhân làm việc lâu dài sẽ bị ảnh hưởng nghiêm trọng đến sức khỏe do ô nhiễm không khí. Rủi ro không gây ung thư do benzene, toluene và MEK gây ra đối với công nhân ở từng khu vực có thể gây ảnh hưởng nghiêm trọng đến sức khỏe công nhân làm việc ở các khu vực sản xuất như in, tráng màng, dệt, kéo sợi và dán. Benzene gây rủi ro ung thư với xác suất từ 1 đến 7 người trong 10.000 người trong quá trình làm việc lâu dài tại nhà máy. Nghiên cứu cho thấy benzene đóng góp rất lớn vào khả năng gây ảnh hưởng nghiêm trọng đến sức khỏe công nhân. Môi trường không khí bên trong nhà máy cần được cải thiện hơn nữa đồng thời tuyên truyền nâng cao ý thức công nhân thực hiện nghiêm túc bảo hộ lao động, tổ chức khám sức khỏe định kỳ cho công nhân. Quan trọng hơn là cần điều chỉnh lại các giá trị qui chuẩn để đảm bảo an toàn sức khỏe cho công nhân đang làm việc tại những nơi có sự hiện diện của khí độc như benzene, toluen, methyl ethyl ketone.

info:eu-repo/classification/ddc/363

ddc:363

info:eu-repo/classification/ddc/7

ddc:7

Development and Characterization of an Iridium-Modified Electrochemical Biosensor for Potential Diabetic Patient Management

Fang, Lei

January 2009

No description available.

Biochemistry

Biomedical Research

Chemical Engineering

Engineering

Iridium-modified

Electrochemical biosensor

Think film printing

Diabetic patient management

Ketone body

3-hydroxybutyrate(3HB)

Nicotinamide adenine dinucleotide(NAD+)

Glycosylated hemoglobin (HbA1c)

Fructosyl valine

Diffusion-reaction model

Structure-Property Relationships in Polymers for Dielectric Capacitors

Gupta, Sahil

16 May 2014

No description available.

Polymer Chemistry

Polymers

Plastics

Materials Science

Energy

Engineering

Morphology

hydroxyl-functionalization

polypropylene

sulfonation

polystyrene

polyether ether ketone

poly 4-methyl-1-pentene

crystal structure

crystallization kinetics

rheology

H-bonding

surface topology

dielectric spectroscopy

breakdown

Synthesis and Characterization of Novel Pol(arylene ethers) for Gas Separation and Water Desalination Membranes

Narang, Gurtej Singh

19 June 2018

This thesis focuses on the synthesis and characterization of various poly(arylene ether)s to improve the efficiency of gas separation and water desalination membranes. This class of polymers includes polymers such as poly(arylene ether sulfone), poly(arylene ether ketone) and poly(phenylene oxide) which offer excellent thermal and mechanical stability and usually have high enough rigidity to support gas separation and water desalination operations. Besides the plethora of properties offered by the homopolymers, these polymers can also be post-modified to cater to specific needs. For example, the polyphenylene oxides have been brominated to increase the permeability for gas separation applications. Blending is another viable method to impart desirable properties to polymers. Bisphenol A based poly(arylene ether ketone) (BPAPAEK) has been blended with commercially available poly(2,6-dimethylphenylene oxide)s (PPO) of different molecular weights in a fixed ratio (66/34 wt/wt) and in various ratios of a 22000 g/mol PPO. All the blends were UV crosslinked to minimize plasticization by condensable gases and analyzed for gel fractions, whereas, only the 22,000 g/mol blends were tested for transport properties since they yielded the highest gel fractions and exhibited the best mechanical properties. The crosslinking reduced the free volume and improved the selectivity with some drop in permeability. The blends with 90% of the 22000 g/mol PPO by weight was plotted closest to the upperbound. A phosphine oxide based poly(arylene ether ketone) (POPAEK) was blended with the various PPOs in a similar manner. The results were compared to the BPAPAEK based blends in terms of miscibility behavior and transport properties. It was found that the POPAEK based blends had higher permeability due to the higher fractional free volumes of the POPAEK. The POPAEK was more compatible with the PPOs than BPAPAEK as seen by analyzing various blend permeability models, mechanical properties and scanning electron microscope images. Moreover, blends with both the PAEKs displayed only a small drop in mechanical properties, such as the Young's modulus and the yield strength in comparison to the parent polymers. Hydroquinone based poly(arylene ether sulfone) oligomers were synthesized, post-sulfonated and chemically crosslinked to determine the effect of water uptake, fixed charge concentration and block length of oligomers on the salt permeability and the hydrated mechanical properties of the networks. The sulfonic acid groups were placed strategically and quantitatively on the hydroquinone units. The strategic placement of the acid groups may help in maintaining high rejection of monovalent ions in the presence of divalent ions, as shown in unpublished work by our group. It was found that the water uptake and fixed charge density had the opposite effects on the salt permeability. Also, the salt permeability varied differently for 5000g/mol and 10000g/mol block based networks. Another polymer that was investigated in this thesis was poly(2-ethyl-2-oxazoline) (PEtOx). An elaborate account of synthesis of monofunctional, heterobifunctional and telechelic poly(2-ethyl-2-oxazoline)s using different initiators including methyl triflate, activated alkyl halides (e.g., benzyl halides), and non-activated alkyl halides has been presented in this thesis. Endgroup functionalities and molecular weight distributions were studied by SEC, 1H NMR and titrations. The oligomers initiated with the benzyl or xylyl chloride had a PDI of 1.3-1.4 which is broader than expected for a living cationic ring opened polymer. This was attributed to the participation of covalent species which propagated slowly in the activated halide reactions. These oligomers were quantitatively terminated as proven by NMR and titrations. Due to the molecular weight distributions and quantitative termination these oligomers were deemed to be desirable for drug delivery applications. / PHD

gas separation

water desalination

electrodialysis

poly(arylene ether ketone)

phosphine oxide

poly(2

6 dimethylphenylene oxide)

polymer blends

UV crosslinking

poly(phenylene ether sulfone)

post sulfonation

fixed charge concentration

Synthèse et analyse conformationelle de dipeptides contenant l’isostère hydroxyéthylène

Genest, Nicolas

01 1900

Dans ce mémoire, je présente mes études sur une stratégie efficace développée pour la synthèse de cétones homoallyliques substituées à partir de l’addition en cascade de réactifs de Grignard vinyliques substitués sur des α-amino esters catalysée par des sels de cuivre. L’utilisation de ces cétones homoallyliques a permis d’obtenir des mimes peptidiques comprenant un isostère de type hydroxyéthylène du lien amide. L’étape clé de cette stratégie repose sur la synthèse de cétones homoallyliques substituées intermédiaires à partir de la réaction d’additions en cascade catalysée au cuivre, de bromure de β,β-diméthylevinyle magnésium sur des analogues d’esters de la phénylalanine et de la sérine. Les cétones homoallyliques résultantes sont réduites sélectivement en alcool, la liaison double est clivée oxydativement et l’acide carboxylique résultant est couplé à un acide aminé. Afin d’évaluer l’effet qu’ont le remplacement du lien amide central dans un coude β par un hydroxyéthylène et de la présence d’un gem diméthyle sur la chaîne carbonée sur la conformation tridimensionnelle adoptée par les tripeptides générés, des analyses à l’état solide par diffraction aux rayons X, des analyses en solution par la spectroscopie RMN et des expériences de type NOESY ont été réalisées. Ces études ont permis de définir un nouveau type de coude β. La présence de pont hydrogène intramoléculaire et l’effet de restriction de conformation induit par le gem diméthyle, généralement appelé effet Thorpe-Ingold, favorisent la formation d’un coude β. / In this thesis, I discuss my studies toward the synthesis of substituted homoallylic ketones from the copper-catalyzed cascade addition of substitued vinyl Grignard reagents to carboxylic esters. The homoallylic ketones were used to provide different peptidomimetics containing a hydroxyethylene isostere instead of an amide bond. The methyl ester of phenylalanine and serine derivatives were reacted in copper-catalyzed cascade additions of substitued vinylmagnesium bromide to provide substitued homoallylic ketone intermediates. Selective reduction of the ketone to an alcohol, oxidative cleavage of the double bond, followed by peptide coupling with amino acid lead to the desired peptidomimic. The influence of changing the central amide bond for a hydroxyethylene isostere in a β-turn and the effect of a gem dimethyl group on the backbone conformation adopted by the newly synthesized tripeptides, were studied by X-ray diffraction and solution NMR spectroscopy using NOESY experiments. From these studies, it was revealed that the iso-butyric acid hydroxyethylene isomer induced a β-turn-like conformation, and may serve as a novel scaffold for peptide mimicry.

Mime peptidique

Peptidomimétisme

Analyse conformationnelle

Hydroxyéthylène

Isostère

Acide amino iso-butyrique

Cétone homoallylique

Repliement bêta

Peptidomimetic

Peptide mimic

Conformational analysis

Hydroxyethylene

Isostere

Amino iso-butyric acid

Homoallylic ketone

Copper catalyzed cascade reaction

β,β-dimethylvinyl magnesium bromide

Beta-turn

Synthesis of constrained tricyclic nucleosides and the core of nagilactone B

Giacometti, Robert

08 1900

Cette thèse décrit deux thèmes principaux: 1) la conception, la synthèse, et l'évaluation biophysique des nucléosides tricycliques, et 2) la synthèse de nagilactone B, un produit naturel norditerpenoïde dilactone de la famille de produits naturels “podolactone”. Le premier chapitre décrit la stratégie de design rationnel des nucléosides nommé “restriction conformationnelle double” basée sur les études de modélisation structurales des duplex ADN–ARN modifiés. Cette stratégie implique un blocage du cycle furanose dans une configuration de type N- ou S, et une restriction de la rotation torsionelle autour de l’angle γ. La première contrainte a été incorporée avec un pont méthylène entre l’oxygène en position 2′ et le carbone 4′ du nucléoside. Cette stratégie a été inspirée par les acides nucléiques bloqués (ou “locked nucleic acid”, LNA). La deuxième contrainte a été réalisée en ajoutant un carbocycle supplémentaire dans l'échafaud de l’acide nucléique bloqué. Les défis synthétiques de la formation des nucléotides modifiés à partir des carbohydrates sont décrits ainsi que les améliorations aux stabilités thermiques qu’ils apportent aux duplex oligonucléïques dont ils font partie. Chapitres deux et trois décrivent le développement de deux voies synthétiques complémentaires pour la formation du noyau de nagilactone B. Ce produit naturel a des implications pour le syndrome de Hutchinson–Gilford, à cause de son habilité de jouer le rôle de modulateur de l’épissage d’ARN pré-messager de lamine A. Ce produit naturel contient sept stereocentres différents, dont deux quaternaires et deux comprenant un syn-1,2-diol, ainsi que des lactones à cinq ou six membres, où le cycle à six ressemble à un groupement α-pyrone. La synthèse a débuté avec la cétone de Wieland-Miescher qui a permis d’adresser les défis structurels ainsi qu’explorer les fonctionnalisations des cycles A, B et D du noyau de nagilactone B. / The present thesis comprises two major themes: 1) the design, synthesis, and biophysical evaluation of conformationally restricted tricyclic nucleosides for antisense applications, and 2) strategic approaches for synthesizing the core of nagilactone B, a norditerpenoid dilactone from the podolactone family of natural products. Guided by structural studies of modified DNA–RNA duplexes, Chapter One focuses on a proposed dual-conformational-restriction strategy, in which two modes of conformational restriction are incorporated into a single nucleotide modification: 1) locking the furanose ring in an N- or S-type configuration and 2) restricting rotation around backbone torsion angle γ. The first constraint was incorporated by way of a 2′,4′-anhydro bridge that is found in the scaffold of locked nucleic acid (LNA), while the second was realized by annealing an additional carbocyclic ring to the modified nucleoside. The synthetic challenges associated with preparing these highly constrained molecules from carbohydrate-derived starting materials are described, in addition to the corresponding improvements in duplex thermal stability they provide to oligonucleotide sequences containing them. Chapters Two and Three describe complementary approaches for the synthesis of the core of nagilactone B, a natural product with implications for Hutchinson–Gilford progeria syndrome, as a consequence of its ability to act as a modulator of splicing events leading to lamin A. This natural product contains seven stereogenic centers overall, including a syn-1,2-diol moiety, a γ-lactone, and a pair of quaternary stereocenters, which are complemented by the presence of an α-pyrone moiety. To address the synthesis of these structural features, the utility of the Wieland–Miescher ketone was explored with an emphasis on synthesizing rings A, B, and D of the core of nagilactone B.

Antisense therapy

Tricyclic nucleic acids

Locked nucleic acids

Nucleosides

Nucleic acids

Nagilactone B

Podolactones

Wieland–Miescher ketone

Allylic oxidation

Reductive carbomethoxylation

Thérapie antisens

Acides nucléiques tricycliques

Acides nucléiques bloqués

Nucléosides

Acides nucléiques

Cétone de Wieland–Miescher

Carbomethoxylation réductrice

Oxydation allylique

Polymères chiraux par polymérisation par étapes asymétrique organocatalysée

Martin, Anthony

17 December 2012

Depuis une quinzaine d’années, les polymères chiraux sont utilisés dans de nombreuses applications, comme phases stationnaires pour la séparation d’énantiomères ou encore en tant que catalyseurs en synthèse asymétrique. Aux vues de ces intérêts grandissants, de nombreuses méthodes ont émergé afin de les synthétiser. Nous nous sommes concentrés sur des méthodes organocatalytiques originales de synthèse de polymères chiraux par réaction de polyaldolisation et par désymétrisation de bis-anhydrides. Nous avons ainsi développé des processus de désymétrisation itératifs et ainsi généré une chiralité C-centrée sur la chaine polymérique. Des polyesters chiraux ont ainsi été obtenus avec de très bonnes séléctivités. / Chiral polymers are used in many applications such as stationary phases for chiral HPLC and catalysts in asymetric synthesis. The synthesis of chiral polymers traditionally deals with metal catalysts-based methodologies and often involved sensitive substrates. On the other hand, only a limited number of publications has been reported through environmentally-friendly organocatalytic pathways.The goal of this Ph.D. studies was devoted to the design of new routes toward chiral polymers under organocatalysis. We chose polyaldolisations and anhydride desymmetrizations with alcohols as key reactions to obtain original polymers with a C-centered chirality in the main polymer chain.

Organocatalyse

Quinine

Polymère chiral

Polymérisation par étapes

Polyaldol

Polyester

Aldolisation

Polyaldolisation

Bis-cétone

Bis-aldéhyde

Désymétrisation

Anhydride glutarique

Bis-anhydride

Bis-lactone

Dégradation de polymère

Organocatalysis

Quinine

Chiral polymer

Step-growth polymerization

Polyaldol

Polyester

Aldolisation

Polyaldolisation

Bis-ketone

Bis-aldehyde

Desymmetrization

Glutaric anhydride

Bis-anhydride

Bis-lactone

Polymer degradation

Estudo da relação quantitativa entre a estrutura química e atividade citotóxica de séries de derivados de bases de Mannich / Study of the quantitative relationship between chemical structure and cytotoxic activity of series of derivatives of Mannich bases

Raminelli, Cristiano

05 December 2001

Bases de Mannich têm sido sintetizadas como pró-fármacos de cetonas α,β-insaturadas, 22, 20 sendo estas importantes no tratamento do câncer. 20 Assim, toma-se de interesse o desenvolvimento de estudos de QSAR envolvendo bases de Mannich com propriedades citotóxicas e/ou anticâncer, contribuindo-se, para o entendimento da(s) interação(ões) destes compostos (agentes alquilantes) no sistema biológico. 40, 5, 36, 53 Neste trabalho, destinado a dissertação de mestrado, foram preparadas e purificadas por métodos triviais descritos na literatura 8 47 duas séries de derivados de bases de Mannich, a saber: nove cloretos de 3-(dimetilamino)-propiofenonas-4-X-substituidas (série I, compostos I.1 a I.9), e seis dos correspondentes iodetos de 3-(trimetilamino )propiofenonas-4-X-substituídas (série II, compostos II.1 a II.6). Destes, quatro não estão descritos na literatura. A seleção dos substituintes foi feita visando obter intercorrelações não significativas entre os correspondentes valores dos parâmetros físico-químicos analisados (π, σp e MR4). 45 Outro critério considerado, se refere as faixas de variação para cada parâmetro físico-químico analisado. 62, 31, 15 Para a série II, estes critérios foram parcialmente contemplados. Em seguida, para cada composto preparado, foram determinados experimentalmente e/ou retirados da literatura 45 e/ou calculados parâmetros parâmetros fisico-químicos/estruturais descritores de propriedades, respectivamente: hidrofóbicas/lipofílicas (π, logPcalc e logP app (sendo os valores este último determinados somente para os compostos da serie I)); eletrônicas/polares (σp, σp+, σp-, σI, σR, T, R, γ13C=0 e νC=0) e, ainda aquela relativa à polarizabilidade (MR4). Como parâmetro biológico para os compostos das series I e II foram determinados os valores da potência citotóxica, expressos por log(1/IC50). A seguir, com o objetivo de se desenvolver estudos de QSAR, aplicando a abordagem tradicional 40 para os compostos respectivamente das séries I e II, e a abordagem mista, 62, 63, 53 que considera as duas séries conjuntamente, foram propostos respectivamente modelos expressos pelas equações IV.4 e IV.6: log(1/IC50)= -0,27(±0,23)δ13C=0 -0,48(±0,35)logPcalc + 56,32(±44,30) eq.IV.4 (n=9;r=0,87;s=0,17;F=9,23;Q2=0,36;SPRESS=0,28) log(1/IC50)=-0,56(±0,27)π+0,35(±0,29)MR4+0,23(±0,22)I[N(Me)3]+-I+1,53(±0,22) eq.IV.6 (n=15;r=0,82;s=0,18;F=7,64;Q2=0,43;SPRESS=0,24 Primeiramente, através da análise do modelo expresso pela equação IV.4 foi possível avaliar as naturezas e contribuições relativas dos parâmetros estruturais responsáveis pela citotoxicidade dos compostos da série I. Em seguida, através da análise do modelo expresso pela equação IV.6 foi possível avaliar a contribuição dos parâmetros físico-químicos, bem como a contribuição da variação estrutural existente entre as séries I e II, responsáveis pela citotoxicidade dos compostos. A interpretação e significado de I[N(Me)3]+I-, que assume valor 0 para os compostos da série I e valor 1 para os compostos da série II, foi discutida em termos estruturais. Nenhum modelo com significado estatístico foi obtido para os compostos da série II. E, tanto para a série I, bem como para as séries I e II, a aplicação dos modelos tanto parabólico como bilinear não resultou em correlações estatisticamente significativas. Pela análise dos modelos foi possível, pelo menos em parte, o entendimento da(s) interação(ões) dos derivados de bases de Mannich no sistema biológico. 40, 5, 36, 53. / Mannich bases have been used as prodrugs of α,β-unsaturated ketones that are important in the cancer therapy 80, 22. In this way, a QSAR study 20, 81 was performed with two sets of Mannich bases derivatives, namely: 3-(dimethylamine)-propiophenon-4-X-substituted hydrochlorides (set I, composed of nine derivatives) and 3-(trimethylamine)propiophenon-4-X-substituted iodines (set II, composed of six derivatives). The sets I and II were prepared by trivial methods described in the literature 58,8. For each compound the physicochemical/structural descriptors, hydrophobic/lipophilic (π, logPcalc and logP app (it was determined only for set I), electronic/polar (σp, σp+, σp-, σI, σR, T, R, γ13C=0 e νC=0) and the polarizability related (MR4), were determined experimentally and/or calculated and/or obtained from the literature 7. The biological parameter was the cytotoxic potency, expressed by values of log(1/IC50). In order to investigate 1he interaction of this class of compounds wi1h the biological system a QSAR study was performed 20, 81. The most significant QSAR models obtained for set I and sets I and II altogether, were expressed respectively by equations 1 and 2. log(1/IC50)= -0,27(±0,23)δ13C=0 -0,48(±0,35)logPcalc + 56,32(±44,30) eq.1 (n=9;r=0,87;s=0,17;F=9,23;Q2=0,36;SPRESS=0,28) log(1/IC50)=-0,56(±0,27)π+0,35(±0,29)MR4+0,23(±0,22)I[N(Me)3]+-I+1,53(±0,22) eq.2 (n=15;r=0,82;s=0,18;F=7,64;Q2=0,43;SPRESS=0,24 To equation 2 was included an variable indicator I[N(Me)3]+I- that assumed the value 0 for set I compounds and the value of 1 for set II compounds. The interpretation and meaning of I[N(Me)3]+I-, were discussed in structural terms. No significant models were obtained for the compounds of the set II. For set I and sets I and II altogether, the application of the parabolic and the bilinear models were verified and showed to be not statistically significant.

Bases de Mannich

Cetona (Estado)

Citotoxicidade

Cytotoxicity

Ketone (State)

Mannich bases

Organic synthesis

Pharmaceutical chemistry

QSAR

QSAR

Química farmacêutica

Relações estrutura-atividade

SAR

SAR

Síntese orgânica

Structure-activity relations