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41	Nanocapsules: Calix[4]arene Derivatives that Self-Assemble through Ionic Interactions in Polar Solvents Sasine, Joshua Sidney 20 April 2005 (has links) Molecular capsules consist of two or more molecules that bind through either covalent or noncovalent interactions to form a structure with an internal void capable of containing guest molecules. These capsules can be used in catalysis/biocatalysis, in drug transport and delivery, in supramolecular arrays, and to stabilize reactive intermediates. Cavitands and calix[4]arenes are two types of macrocycles that have been used to form molecular capsules. Cavitands are used to form capsules called carceplexes, hemicarceplexes, and hemicarcerands through covalent bonds when two molecules are bridged together rim to rim. Calix[4]arene derivatives self-assemble reversibly through noncovalent interactions such as hydrogen bonding and ionic bonding to form capsules. Capsules formed form cavitands and calix[4]arenes have been shown to encapsulate a variety of guest molecules in nonpolar solvents. In order for the capsules to be used for biological applications, the capsules need to encapsulate guest molecules in water. There are only a few examples of capsules that encapsulate guests in polar solvents. Calix[4]arenes derivatives substituted with charged substituents on the upper rim and propyl groups on the lower rim were synthesized. These derivatives dimerize through ionic interactions in polar solvents forming both heterodimers and homodimers. These dimers will be used to encapsulate various guest molecules. Although the ionic propoxycalix[4]arene monomers are water-soluble, the heterodimers are not. This is due to the shielding of the charges upon assembly leaving only the propyl groups on the lower rim exposed to the polar solvent. To increase dimer solubility in water, calix[4]arene derivatives are being synthesized with hydroxy ethyl groups instead of the propyl groups on the lower rim. When the charged hydroxyethoxycalix[4]arene derivatives dimerize, the alcohols will be exposed to the polar solvent instead of the propyl groups increasing the water-solubility of the capsules. Calix[4]arene Nanocapsule Polar Ionic Association Dimers Self-assembly Calixarenes Nanostructured materials
42	Studies Of Phosphorus-Functionalized Calix[4]arenes And Their Palladium Complexes Sarkar, Arindam 04 1900 (has links) Calixarenes, particularly calix[4]arenes, continue to attract considerable attention in synthetic chemistry, notably as platforms for designing sophisticated molecular cages and claw-like ligands. Incorporation of phosphorus containing fragments into the calix[4]arene framework gives rise to new class of phosphorus ligands, called “calixphosphines”, a class of molecules that combine a catalytic center (a transition metal) and a molecular receptor. This area of research has been growing rapidly in recent years. This thesis deals with the synthesis and a systematic study of conformational aspects of phosphorus functionalized calix[4]arene ligands and their palladium complexes. Several phosphorus functionalized calix[4]arene ligands and their (allyl) palladium complexes have been synthesized. The new compounds have been characterized by elemental analysis, NMR and IR spectroscopic data. The molecular structures of some representative compounds have been confirmed by single crystal X-ray diffraction studies. Chapter 1 provides a brief overview of phosphorus functionalized calix[4]arenes and their transition metal chemistry with emphasis on aspects related to the theme of the present study. The scope and aim of the present investigation is outlined at the end of this chapter. Chapter 2 presents the results obtained in the present investigation and a discussion of these results, especially spectroscopic and X-ray crystallographic data. The highlights of the present investigation and possible future directions are summarized at the end of this chapter. Chapter 3 contains relevant details of the experimental procedures for the synthesis of calix[4]arene phosphite ligands and their palladium complexes. Spectroscopic and analytical data of these compounds are also given in this chapter. The details of single crystal diffraction studies are included at the end of this chapter. The references to the literature are compiled at the end of the thesis and are indicated in the text by appropriate numbers appearing as superscripts. The compounds synthesized in the present study are represented by bold arabic numerals. The abbreviations employed in this thesis are those generally used in Chemical Abstracts. Palladium Complexes Synthesis Reactions Phosphorous-Functionalized Calixarenes Calixarenes - Synthesis Calixarene Phosphite Ligands Calix[4]arene Inorganic Chemistry
43	Matériaux calixaréniques pour la catalyse / Calixarenes as materials for catalysis Awada, Mouhamad 17 February 2012 (has links) La réalisation d'une transformation chimique dans un espace confiné constitue pour les chimistes molécularistes un véritable défi. Des recherches récentes ont montré que des réactions se déroulant dans une poche ou une cavité moléculaire étaient de nature à engendrer des sélectivités nouvelles et faciliter des réactions thermodynamiquement défavorables. L'association métal-cavité permet également le déroulement de processus catalytiques en milieu aqueux, dès lors que la cavité a été rendue hydrosoluble.L’objectif de cette thèse était de préparer des ligands originaux intégrant une ou plusieurs cavités moléculaires de type calix[4]arène et d’en étudier les propriétés complexantes. L’ensemble des calixarènes synthétisés sont porteurs d’un ou plusieurs groupes PPh2 directement liés au bord supérieur du macrocycle. Plusieurs types de molécules ont été préparées : (i) des bis-calixarènes formant, après complexation, des métallo-capsules; (ii) des calixar!ène-diphosphines adaptées à la formation de complexes bimétalliques dans lesquels les centres métalliques sont placés entre deux coquilles se faisant face. L’activité catalytique de certains de ces métallo-capsules est jusqu’à 40 fois supérieurs à celle observé pour un catalyseur classique.La dernière partie de cette thèse a pour objectif de mettre à la disposition des spécialistes de la chimie des surfaces des phosphacalixarènes originaux destinés à la confection de supports solides P(III)-fonctionnalisés et donc de nouveaux catalyseurs supportés. / The realization of a chemical transformation in a confined space is for molecularist chemists a challenge. Recent research has shown that reactions occurring in a pocket or a molecular cavity were such as to generate selectivities and facilitate new thermodynamically unfavorable reactions.The metal-cavity association allows also the course of catalytic processes in aqueous medium, when the cavity has been made water soluble.The objective of this thesis was to prepare original ligands incorporating one or more cavities of molecular type calix[4]arene and to study their complexing properties. All the synthesized calixarenes are carriers of one or more groups PPh2 directly related to the upper rim of the macrocycle.Several types of molecules were prepared: (i) bis-calixarenes forming, after complexation, metallocapsules, (ii) calixarene-diphosphines suitable for the formation of bimetallic complexes in which the metal centers between two shells are placed facing each other. The catalytic activity of some of these metallo-capsules is 40 times higher than that observed for a conventional catalyst.The last part of this thesis aims to make available experts in surface chemistry of the original phosphacalixarenes for making solid supports P (III)-functionalized and thus new supported catalysts Calix[4]arene Diphosphanes Capsular Immobilization Catalysis Intracavity Nickel Silver Calixarenes Diphosphanes Capsular Imobilization Catalyse Intracavity Nickel Silver 541.39
44	Modulação da agressividade do câncer de pâncreas, estudo in vitro / Modulation of pancreatic cancer aggressiveness, in vitro study Pelizzaro-Rocha, Karin Juliane, 1985- 23 August 2018 (has links) Orientadores: Carmen Veríssima Ferreira Halder, Ronaldo Aloise Pilli / Tese (doutorado) - Universidade Estadual de Campinas, Instituto de Biologia / Made available in DSpace on 2018-08-23T09:59:14Z (GMT). No. of bitstreams: 1 Pelizzaro-Rocha_KarinJuliane_D.pdf: 18909118 bytes, checksum: fa9cec97e3d81e8fb670dab95bc1bc4d (MD5) Previous issue date: 2013 / Resumo: O resumo poderá ser visualizado no texto completo da tese digital quando liberada / Abstract: The abstract is available with the full electronic document when available / Doutorado / Bioquimica / Doutora em Biologia Funcional e Molecular Neoplasias pancreáticas Calix[6]areno Goniotalamina Agressividade Morte celular Pancreatic neoplasms Calix[6]arene Goniothalamin Aggressiveness Cell death
45	Komplexierende Glycopolymerfilme auf der Basis hochverzweigten Polyethylenimins zum Aufbau ionenselektiver Elektroden Kluge, Jörg 10 February 2017 (has links) (PDF) Die bisher gängigen PVC-Membranen ionenselektiver Elektroden weisen eine Reihe von Schwachstellen auf: Sie haften nur durch Adhäsion am Substrat, sodass sich bei miniaturisierten Elektroden die Membran ablösen kann; Membranbestandteile wie der Weichmacher, das Ionophor oder der Ionenaustauscher können bei der Verwendung ausgewaschen werden, sodass sich die chemischen und physikalischen Eigenschaften der Membran verschlechtern; auf der Membranoberfläche kann sich auf Grund ihrer Hydrophobie ein Biofilm ausbilden, der die Membran abschirmt. Diese Schwachstellen bewirken eine Dysfunktionalität der ionenselektiven Elektrode, weshalb im Rahmen dieser Arbeit ein Glycopolymerfilm entwickelt worden ist, der diese Schwachstellen nicht aufweist. Die in dieser Arbeit entwickelte Membran, die auf einem multifunktionalen Glycopolymer beruht, zielt auf die Egalisierung der Schwachstellen konventioneller ionenselektiver PVC-Membranen. Die entwickelte Membran kommt dabei ohne Weichmacher aus, reduziert die Ausbildung von Biofilmen, bindet kovalent an das darunterliegende organische Substrat und durch die kovalente Anbindung des Ionophors wird dessen Auswaschen verhindert. Um eine kovalente Bindung der Membran an organische Vermittlerschichten zu erreichen, wie sie bei All-solid-state-Elektroden zum Einsatz kommen, werden zunächst die photovernetzbaren Glycopolymere 12a–c entwickelt, bei denen etwa neun Photovernetzereinheiten über PEG-Spacer an den PEI25-Kern gebunden sind. Drei PEG-Spacer mit unterschiedlicher Länge werden hinsichtlich ihres Einflusses auf die Filmbildung untersucht: Sie besitzen vier (12a), acht (12b) und zwölf Ethylenglycoleinheiten (12c). Dabei zeigt sich, dass eine Spacerlänge von zwölf Ethylenglycoleinheiten für eine effektive Photovernetzung notwendig ist, weshalb für die folgenden Strukturen nur PEG12-Spacer eingesetzt werden. Um eine kovalente Anbindung des Ionophors an das Glycopolymer zu erreichen, werden verschiedene Syntheserouten genutzt und auf ihre Wirkung hin analysiert. Die frühe direkte Anbindung des Calix[4]arenderivats 3 an den PEI25-Kern der Glycopolymere 17a–c erweist sich als nachteilig, da hierdurch darauffolgende Syntheseschritte beeinträchtigt werden. Anderseits zeigen diese Glycopolymere, dass sich die Calix[4]areneinheiten nicht negativ auf die Glycopolymerfilmbildung auswirken. Zur Überwindung der erwähnten Probleme werden in den multifunktionalen Glycopolymeren 22a und 22b die Calix[4]arene wie der Photovernetzer am Ende der Syntheseroute über PEG12-Spacer angebunden. Dies erfolgt dabei über den upper rim des Calix[4]arens, da somit der lower rim, an dem sich ionenkomplexierenden Gruppen befinden, nicht beeinflusst wird. Neben der Struktur des Glycopolymers wird auch eine Methode zur Glycopolymerfilmbildung auf Modellsubstraten entwickelt. Hierfür werden Siliziumwafer mit einer hydrophilen organischen Vermittlerschicht aus (3-Glycidyloxypropyl)-trimethoxysilan (GOPS) eingesetzt. Bei der Filmbildung zeigt sich, dass die alleinige Bestrahlung mit UV-Licht nicht ausreichend ist, um eine stabile Vernetzung zu generieren. Erst nach vorausgehendem Tempern (1 h bei 120 °C) werden Filme mit einer Dicke von (42±8) nm für das Glycopolymer 12c erhalten. Die Glycopolymere 12a und 12b, die kürzere PEG-Spacer enthalten, bilden deutlich dünnere Filme aus. Für die vollständige Vernetzung ist eine Bestrahlungszeit von einer Stunde notwendig, was einer Energiedosis von etwa 290 J/cm² entspricht. Trotz möglicher freier Aminogruppen in der Struktur bilden die Glycopolymere 17a–c, bei denen unterschiedlich viele Calix[4]arene direkt an den PEI25-Kern gebunden sind, stabile Filme aus. Die sich ergebenden Schichtdicken zeigen dabei weder im Vergleich zum Glycopolymer 12c noch untereinander signifikante Unterschiede. Die Filmbildung auf dem hydrophilen GOPS wird demzufolge durch die direkt angebundenen Calix[4]arene nicht beeinträchtigt. Auf Grund des erwarteten amphiphilen Charakters der Glycopolymere 17a–c wird ihre Filmbildung nicht nur auf hydrophilen, sondern auch auf hydrophoben Modellsubstraten untersucht. Hierzu werden Siliziumwafer mit hydrophoben Vermittlerschichten aus Benzophenonsilan (BPS) und Poly-α-methylstyrol (PαMS) eingesetzt. Auf den hydrophoben Vermittlerschichten bilden die Glycopolymere 17a–c deutlich dünnere Filme aus als auf dem hydrophilen GOPS. Die Calix[4]areneinheiten sind demnach durch die Maltosehülle abgeschirmt und es treten kaum Wechselwirkungen mit den hydrophoben Substratoberflächen auf. Im Gegensatz dazu ermöglicht die Anbindung der Calix[4]arene über PEG12-Spacer den Glycopolymeren 22a und 22b auf hydrophilen wie hydrophoben Vermittlerschichten in etwa gleich dicke Filme auszubilden. Offensichtlich liegt bei diesen Glycopolymeren eine amphiphile Peripherie vor, sodass sich die Glycopolymere besonders zur Beschichtung von All-solid-state-Elektroden mit verschiedenen Mediatorschichten eignen. Die photovernetzten Glycopolymerfilme quellen auf Grund ihrer hydrophilen Eigenschaften. Der Quellungsgrad q liegt dabei niedriger, wenn hydrophobe Calix[4]arene in die Struktur eingebunden sind: q(17c) = 2,3 im Vergleich zu q(12c) = 3,6. Erfolgt die Anbindung der Calix[4]arene direkt an den PEI25-Kern, ist die Glycopolymerstruktur unflexibel, sodass der Quellungsprozess bis zu sieben Stunden benötigt. Durch die Anbindung der Calix[4]arene über PEG12-Spacer wird die Flexibilität der Glycopolymere hingegen nicht beeinträchtigt, sodass der Quellungsprozess weniger als zwei Stunden benötigt. PVC-Membranen verlieren schon nach kurzer Zeit ihre ionenselektiven Eigenschaften, weil etwa der Weichmacher aus den Membranen diffundiert und diese dadurch spröde werden. Die Glycopolymerfilme sind hingegen über einen Zeitraum von mindestens 100 Tagen gegenüber sauren (pH = 4), neutralen und basischen (pH = 10) Lösungen stabil. Die entwickelten Glycopolymere werden im Rahmen einer Kooperation mit dem Kurt-Schwabe-Institut (KSI) in Meinsberg auf All-solid-state-Elektroden als ionenselektive Membranen eingesetzt. Die Graphitelektroden werden dafür mit einer Mediatorschicht aus leitfähigem Polypyrrol (PPy) und dem Glycopolymer 17c beschichtet. Die All-solid-state-Elektroden werden hinsichtlich ihres Ansprechverhaltens gegenüber verschiedenen Ionen untersucht. Die Anbindung und Vernetzung erfolgt nach der für die Modellsubstrate optimierten Methode. Jedoch werden die Bedingungen für das Tempern angepasst, um eine Beschädigung der All-solid-state-Elektrode auszuschließen: 12 h bei 45 °C statt 1 h bei 120 °C. Dabei bildet sich ein inhomogener Belag aus, bei dem Teile der PPy-Schicht frei bleiben. Im Vergleich zur reinen und zur mit Polypyrrol (PPy) beschichteten Graphitelektrode zeigt die Elektrode, die mit einem Glycopolymerfilm versehen ist, trotz der Inhomogenität stabile und reproduzierbare Potentiale. Diese sind jedoch nicht von der Konzentration der Kationen, sondern von der der Anionen abhängig. Durch die Auftragung einer Ionentauscherschicht auf die ionenselektive Membran soll das Vordringen der Anionen in die Membran der All-solid-state-Elektrode unterbunden werden. Dadurch soll das Ansprechverhalten der All-solid-state-Elektrode auf die Kationen gelenkt werden. Entsprechende Arbeiten werden am KSI durchgeführt. Benzophenon Calix[4]aren Glycopolymer ionenselektive Elektrode Photovernetzung Polyethylenimin benzophenone calix[4]arene glycopolymer ion-selective electrode photo-crosslinking poly(ethylene imine) ddc:540 rvk:VE 7107
46	Efeito dos anticonvulsivantes aromáticos (carbamazepina, fenitoína e fenobarbital) e de seus areno-óxidos na função e no estresse oxidativo mitocondrial em fígado de rato / Aromatic antiepiletic drugs and mitochondrial toxicity: effects on mitochondria isolated from rat liver Medina, Wanessa Silva Garcia 06 June 2008 (has links) O fígado desempenha um papel central na disposição metabólica de vários agentes químicos endógenos e exógenos, incluindo quase todos os fármacos. Neste processo de biotransformação pode ocorrer a formação de metabólitos intermediários altamente reativos que se não forem convenientemente eliminados podem interagir com macromoléculas celulares lesando o órgão. A hepatotoxicidade idiossincrática associada ao uso de antiepilépticos aromáticos (AEA) é bem conhecida e tem sido atribuída ao acúmulo de intermediários tóxicos (areno-óxidos) formados durante a bioativação hepática. Embora a participação de processos imunológicos no mecanismo de ação tóxica dos AEA tenha sido demonstrada, existe a possibilidade de mecanismos adjuvantes envolvendo a toxicidade mitocondrial, evento ainda não explorado na literatura científica. Neste estudo avaliou-se, in vitro, o efeito dos AEA: carbamazepina, fenitoína e fenobarbital, bem como dos seus respectivos metabólitos na função mitocondrial e na indução do estresse oxidativo em mitocôndrias de fígado de rato, como possível mecanismo de ação hepatotóxica desses fármacos. Sistema microssomal hepático de rato foi utilizado para bioativação dos fármacos e produção dos respectivos metabólitos in vitro. Sem a bioativação, somente o fenobarbital (em concentrações elevadas) apresentou efeitos inibidores sobre o estado 3 da respiração, síntese de ATP e potencial de membrana, sem, contudo induzir o estresse oxidativo. Quando bioativados, todos os fármacos apresentaram efeitos sobre a função mitocondrial através de processo mediado por estresse oxidativo. Todos os fármacos bioativados afetaram a respiração mitocondrial, causando diminuição do consumo de oxigênio no estado 3, diminuição do RCR e aumento do consumo de oxigênio no estado 4. Foram também evidenciadas alterações na captação/liberação de cálcio, inibição da síntese de ATP, diminuição do potencial de membrana e inibição do intumescimento mitocondrial induzido pelo cálcio. A oxidação de proteínas e lipídeos mitocondriais foi demonstrada pela formação de proteínas carboniladas, diminuição de proteínas com grupamentos sulfidrila, aumento de malondialdeído (MDA) e pela oxidação da cardiolipina. O sistema de defesa antioxidante mitocondrial também foi afetado, como evidenciado pela diminuição da relação GSH/GSSG (glutationa reduzida/glutationa oxidada). Os resultados sugerem fortemente a participação do dano mitocondrial, mediado pelo estresse oxidativo causado pelos metabólitos dos AEA, no desenvolvimento da hepatotoxicidade idiossincrática induzida por esses fármacos. / The liver plays a central role in the metabolic disposition of various endogenous and exogenous chemicals, including almost all drugs. During the biotransformation process, highly reactive metabolites can be produced, and if they are not detoxified, they can interact with cellular macromolecules and cause organ injury. Idiosyncratic hepatotoxicity is a well-known complication associated with aromatic antiepileptic drugs (AAED), and it has been suggested to occur due to the accumulation of toxic arene oxide metabolites. Although the participation of an immune process in the toxic action mechanism of AAED has been demonstrated, adjuvant mechanisms involving mitochondrial toxicity is also possible and such event has not been studied yet. Therefore, we investigated, in vitro, the effects of carbamazepine (CB), phenytoin (PT), phenobarbital (PB) and their respective metabolites on the hepatic mitochondrial function as well as their ability to induce oxidative stress in rat liver mitochondria, as a possible hepatotoxic action mechanism. The murine hepatic microsomal system was used to bioactivate the drugs and to produce the anticonvulsant metabolites in vitro. As an unaltered drug, only phenobarbital (in high concentrations) presented inhibitory effects on state 3 respiration, ATP synthesis, and membrane potential; however, it did not induce oxidative stress. All the bioactivated drugs affected mitochondrial function through an oxidative stress-mediated process. All the bioactivated drugs affected mitochondrial function causing decrease in state 3 respiration, decrease in RCR and increase in state 4 respiration. They also caused impairment of Ca+2 uptake /release, decrease in ATP synthesis, decrease in membrane potential and inhibition of calcium-induced swelling. Oxidation of proteins and lipids was evidenced by carbonil proteins formation, decrease in thiol proteins, increase in malonaldehyde (MDA) and cardiolipin oxidation. The mitochondrial antioxidant defense system was also affected, as evidenced by the decreased GSH/GSSG ratio (reduced glutathione/oxidized glutathione). Results strongly suggest the involvement of mitochondrial damage, which is mediated by the oxidative stress caused by the AAED metabolites, in the development of AAED-induced idiosyncratic hepatotoxicity. antiepilépticos aromáticos (AEA) arene-oxides areno-óxidos aromatic antiepileptic drugs (AAED) carbamazepina carbamazepine estresse oxidativo fenitoína fenobarbital hepatotoxicidade hepatotoxicity mitochondria mitocôndria oxidative stress phenobarbital phenytoin
47	The pillar [5] arene as a polyfunctional core for the development of molecular materials / Le pillar[5]arène comme coeur polyfonctionnel pour l’élaboration de matériaux moléculaires Ben Aziza, Haifa 28 September 2015 (has links) La préparation de briques élémentaires de pillar[5]arènes « clickables » nous ont permis de construire des édifices moléculaires complexes, en greffant différents groupements fonctionnels autour du coeur macrocyclique. Dans ce contexte, des nouveaux dérivés du pillar[5]arène présentant des propriétés cristaux-liquides ont été synthétisés en greffant du p-dodecyloxybenzoate ou encore des dendrons de type percec. D’autres part, des dérivés pillarèniques portant des unités de porphyrines ont été préparés à partir du squelette « clickable » pillar[5]arène et de porphyrines de Zinc portant des fonctions alcynes vrai. Les études de ce système par RMN du proton à des températures variables ont permis de mettre en évidence un équilibre conformationnel dynamique conduisant au repliement des molécules. Ceci a été expliqué par une complexation intramoléculaire des porphyrines de Zinc par les groupements 1,2,3-triazole. Finalement un support « clickable » detype [2]rotaxane comportant une porphyrine base libre comme bouchon, a été préparé et ensuite fonctionnalisé par dix porphyrines de Zinc permettant l’obtention d’un dispositif supramoléculaire photoactif. / Clickable pillar[5]arene building blocks have been used for the efficient grafting of peripheral subunits onto the macrocyclic core. New liquid-crystalline pillar[5]arene derivatives have been prepared by grafting either p-dodecyloxybenzoate groups or percec-type dendrons on the macrocyclic scaffold. On the other hand, pillar[5]arene derivatives bearing peripheral porphyrin subunits have been efficiently prepared from the clickable pillar[5]arene building block and Zn(II)-porphyrin derivatives bearing a terminal alkyne function. Owing to an intramolecular complexation of the peripheral Zn(II)-porphyrin moieties by 1,2,3-triazole subunits, an original dynamic conformational equilibrium leading to a folding of the molecules has been evidenced by variable temperature 1H NMR studies. Finally, a clickable [2]rotaxane scaffold incorporating a free-base porphyrin stopper has been prepared and functionalized with ten peripheral Zn(II)-porphyrin moieties to afford a sophisticated photoactive supramolecular device. Chimie click Cristal liquide Pillar[5]arène Rotaxane Porphyrine Chimie supramoléculaire Click chemistry Liquid crystal Pillar[5]arene Rotaxane Porphyrin Supramolecular chemistry 547.2
48	STUDY OF THE EFFECT OF STERIC BULK OF SIDE CHAINS ON THE PROPERTIES OF CONJUGATED POLYMERS Zhang, Bei 01 January 2018 (has links) Donor-acceptor conjugated polymers opened a new era for conjugated polymer research due to the abundant selection and combination of diﬀerent conjugated units. This class of polymers function as semiconductor materials with potential application in plastic consumer electronics. The frontier molecular orbital energies of the polymers are generally determined by the selection of donor and acceptor units in the backbone structure, and their substituents. The side chains attached to the backbone not only affect the solubility of the materials, but also their self-assembly and morphological characteristics, which indirectly govern optoelectronic properties. It is important therefore to consider backbone architectures and the side chains together, to control (opto)-electronic properties for specific applications, while also maintaining solution processability without disrupting solid-state packing. The research presented in this dissertation focuses largely on the side chains: how the bulk and position of side chains affect the (opto)-electronic properties of select donor-acceptor (D-A) conjugated polymers. More precisely the intent is to vary the size and position of branches in the alkyl side chains of donor-acceptor polymers, in the attempt to solubilize poorly soluble polymers, without disrupting self-assembly of the polymer backbones into close p-stacks. After an introductory chapter 1, chapter 2 mainly focuses on the synthesis and structure-property study of polymers with 2,3,5,6-tetrafluorobenzene (TFB) as the acceptor motif and benzo[1,2-b:4,5-b′]dithiophene (BDT) as donor units carrying solubilizing substituents. TFB units were chosen based on previous observations that this acceptor unit imparts particularly poor solubility to various donor-acceptor copolymers. The current study indicates that bulky branches placed close to the polymer backbone could solubilize the PBDTTFB copolymers without altering the absorption profile and oxidation potentials. Optical, wide-angle x-ray diffraction (WAXD) and solubility studies shows that solubility is closely related to branching size and position. As the branch size in increased, the solubility of these polymers undergoes a step-change. The third chapter mainly focuses on the structure-property study of D-A polymers with thienopyrroledione (TPD) as acceptor. Unlike TFB, this acceptor can carry additional side chains that can compete with the space-filling demands of the donor unit side chains. As donor, the rigid BDT unit was compared with 3,3’-dialkoxy-2,2’bithiophene (RO2T2) units which have a similar size, but contain a “swiveling” central σ-bond. Bulkiness of side chains attached to the T2 units should be expected to have a more severe impact, possibly causing the two thiophene units of the T2 units to twist out of plane. It was demonstrated that alkoxy side chains with bulky branches in close proximity to the polymer backbones does not disrupt conjugation in these polymers. The UV-Vis absorption spectra of RO2T2-TPD polymers were red-shifted (more than 120 nm) in comparison to PBDTTPD polymers due to the smaller Eg (energy gap), which might be attributed to the expected higher energy HOMO imparted by the donor unit. The π-π stacking of polymers with BDT units was little affected by the bulky side chains. However, the π-π stacking of polymers with RO2T2 units was much more sensitive to side-chain bulk, with high degree of order and close π-π stacking only if proper local free spacing exists for side-chain interdigitation. Chapter 4 reports efforts to study polymers from the same set of RO2T2 monomers studied in Chapter 3, but without acceptor units that might otherwise drive self-assembly. RO2T2 homopolymers were synthesized via the Grignard metathesis (GRIM) method. Further, copolymers were prepared with RO2T2 units alternating with thiophene, thieno[3,2-b]thiophene or bithiophene. The spectroscopic studies suggest these polymers with bulky side chains exhibit some varying level of backbone conjugation. Somewhat surprisingly, despite an expected decrease in the strength of intermolecular donor-acceptor interactions, the solubilities were in some cases low, but varied with volume fraction of side chains. Further, even for polymers that appear to easily dissolve, aggregation in solution is so extensive as to give ensembles “too large” for characterization by GPC and or solution NMR. Oxidation potentials seem essentially insensitive to any of the structural variables (governed mostly by the backbone RO2T2 units). Donor-Acceptor conjugated polymers fluorinated arene benzo[1 2-b:4 5-b′]dithiophene (BDT) 3 3’-dialkoxy bithiophene thiopheneimide (TPD) Materials Chemistry Organic Chemistry Polymer Chemistry
49	Récepteurs auto-assemblés pour des molécules d’intérêt biologique / Self-assembled receptors for biologically relevant molecules Héloin, Alexandre 05 July 2019 (has links) Depuis la fin du XXème siècle, la chimie combinatoire dynamique permet de synthétiser sous contrôle thermodynamique des récepteurs macrocycliques pour des molécules invités cibles. Ainsi, de nombreux hôtes supramoléculaires capables d’effectuer de la reconnaissance de molécules d’intérêt biologique dans l’eau ont été reportés dans la littérature. Nous avons décrit une nouvelle famille de récepteurs macrocycliques hydrosolubles appelés dyn[n]arènes polycarboxylates. Leur propriété de reconnaissance moléculaire vis-à-vis des polyamines, des métaux et des acides aminés ont permis d’envisager des applications biologiques. D’un point de vue fondamental, le rôle des divers paramètres, dont le solvant, a été étudié pour identifier les forces motrices responsables des associations. Des expériences in cellulo ont permis de démontrer un effet cytostatique anti-prolifératif transitoire du dyn[4]arène sur les cellules cancéreuses HeLa. Dans le but de moduler leurs propriétés de reconnaissance moléculaire, des réactions d’extrusion de soufre ont été envisagées pour synthétiser des dérivés plus robustes des dyn[n]arènes. Enfin, une famille d’objets macrocycliques apparentée a été envisagée basée sur le motif imino-1,5-dithiocines. Des études synthétiques et physico-chimiques pour l’élaboration de ces nouveaux cavitands laissent entrevoir de possibles applications biologiques similaires à celle de leurs analogues, les bases de Tröger / Since the end of the 20th century, dynamic combinatorial chemistry under thermodynamic control has enabled the synthesis of macrocyclic receptors towards targeted guest. So, many supramolecular hosts have been reported to be efficent in the molecular recognition of biologically relevant molecules in water. We describe a new family of hydrosoluble macrocycles called polycarboxylated dyn[n]renes. Their molecular recognition properties with polyamines, amino acids and metals allow biological studies. From the fundamental view, the role of each parameters, including the solvent, has been deeply studied to identify the strength of the association. In cellulo experiments have shown an antiproliferative and cytostatic effect of the dyn[4]arene on HeLa cancer cells for several hours. In order to modulate their molecular recognition properties, sulfur extrusion process has been carried out to synthesize more robust derivatives of dynarenes. Finally, a new family of similar macrocycles has been studied, based on imino-1,5-dithiocines. Syntheses and physico-chemical studies for the design of futurs cavitands pave the way for similar biological applications as described for Tröger’s bases Chimie combinatoire dynamique Dyn[n]arène Extrusion de soufre Imino-1,5-dithiocines Reconnaissance moléculaire Dynamic combinatorial chemistry Dyn[n]arene Sulfur extrusion Imino-1,5-dithiocine Molecular recognition 540
50	Synthèses, caractérisation et étude structurale de complexes de type carbènes N-hétérocycliques basés sur des Calix[4]arènes / Synthesis, Characterization and X-Ray Structures of N-heterocyclic Carbene Palladium Complexes based on Calix[4]arenes Ren, Hui 19 December 2014 (has links) Cette thèse apporte une contribution au développement de complexes carbènes N-hétérocycliques-palladium basés sur des calix[4]arènes: leur synthèse, leur caractérisation ainsi que l'évaluation de leur activité catalytique est presenté. Pour cela, un calix[4]arène mono-substitué a été préparé conformément aux procédures classiques, puis les précurseurs de nouveaux ligands NHC ont été obtenus. Subissant l'alkylation avec du n-butylbromide et puis une métallation subséquente avec du palladium et de la pyridine, quatorze nouveaux complexes ont été obtenus. Après les caractérisations complètes en solution et à l'état solide, l'évaluation de l'activité catalytique a été réalisée dans réactions couplage de Suzuki-Miyaura. De bonnes performances ont pu être observées permettant d'obtenir des taux de transformation de 99% avec des quantités de catalyseur descandant jusqu'à 0.08 mol%. L'étude de conformation ainsi que les résultats catalytiques en catalyse n'ont pas permis de mettre en évidence un effet supramoléculaire de la cavité macrocyclique envers le processus de couplage. Dans le but d'orienter le centre catalytique à l'intérieur de la cavité, des contraintes stériques ont été appliquées sur des nouveaux Pd-NHC-complexes. Ainsi des complexes dimeriques de palladium ont été synthétisés et entièrement caractérisés. Plusieurs approches pour construire des linkers intramoléculaires permettant de fixer la conformation ont été énvisagées mais n'ont pas permis à ce jour un gel conformationnel / This thesis will focus on development of N-heterocyclic carbene palladium complexes based on calix[4]arenes: from synthesis, characterization and structural study to evaluation of catalytic activity. A new series of calix[4]arene supported N-heterocyclic carbene palladium complexes was developed and fully characterized. A mono-substituted calix[4]arene was prepared through conventional procedures, following with the attachment of imidazolyl derivative groups to compose the precursors of novel NHCs ligands. Undergoing the alkylation with n-butylbromide and corresponding metallation with palladium and pyridine, original complexes were obtained. After a full characterization in solution and solid state, the evaluation of catalytic activity was undertaken through Suzuki-Miyaura cross-coupling reactions which revealed good performances. The conformational study as well as the catalytic results in catalysis did not allow putting in evidence a supramolecular effect of the macrocycle cavity towards the coupling process. With the aim of localize catalytic center inside of the cavity, steric constrain was involved in the form of new Pd-NHC-complexes. Dimeric Pd complexes were synthesized and fully characterized as well. Several approaches to construct intramolecular linkers for fixing the conformation were elaborated. The conception of ‘flexible steric bulky’ inspired the research on confined structure of calix[4]arene, such as encapsulation and capped configuration. Relative progresses were carried out and discussed Calix[4]arènes Carbènes N-hétérocycliques Complexes de Palladium Catalyses Couplages de Suzuki-Miyaura Calix[4]arene N-heterocyclic carbene Palladium complex Catalysis Suzuki-Miyaura cross-coupling 541

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