The Dendritic Effect on Enantioselectivity of Organocatalytic Reactions and the Effect of Local Compaction on a Titanium Mediated Allylation of Aldehydes

McDaniel, Christopher George

07 October 2010

No description available.

Chemistry

Organic Chemistry

Dendrimers

dendrons

organocatalysis

kinetic resolution

allylation

Design and Application of Triplet-Triplet Annihilation Upconversion Materials

Churchill, Emily Marie

January 2022

Triplet-triplet annihilation upconversion (TTA-UC) is a process which converts two low energy photons into one higher-energy excited state. TTA-UC has recently received attention for its potential application to many light driven processes, such as improving efficiency in photovoltaic devices and allowing use of low-energy light sources for in vivo applications, including bioimaging, optogenetics, and photochemotherapy. Each of these applications has a different set of energetic requirements, which has created a need for a diverse library of upconverting materials. Additionally, these applications benefit from improved upconversion efficiency in solid-state, a task that has proven challenging for the traditionally solution-phase process. Macromolecular scaffolds are a promising avenue to tune the electronic communication between chromophores and control intermolecular packing in solid-state. Herein, we report the investigation of dendrimers with annihilator-functionalized termini and linear annihilator polymers as frameworks to control local annihilator concentration and communication. We find that multi-annihilator dendrimers exhibit higher upconversion yields at low concentrations compared to similar concentrations of monomer; however, higher generation dendrimers allow strong interchromophore coupling, which promotes parasitic excimer formation, decreasing relative upconversion yields. Linear annihilator copolymers with alternating anthracene and phenyl or naphthyl bridges had ground state optical properties predictive of interchromophore communication based on bridge connectivity, interchromophore length, and polymer planarity. Non-conjugated, naphthyl polymers were observed to be the most efficient at intramolecular TTA-UC in dilute solutions. In this dissertation, we will discuss current efforts in the field towards control and analysis of intramolecular TTA-UC through design of multi-annihilator macromolecules and novel annihilator scaffolds targeting underutilized regions of the electromagnetic spectrum. In Chapter 1, we list important factors to consider about improving TTA-UC and follow with discussion of reported macromolecular systems and their efforts towards intramolecular TTA-UC. Chapter 2 introduces a series of non-conjugated dendrimers functionalized with anthracene annihilators on the periphery and analyzes their upconversion capabilities as a set of macromolecules with controlled molecular structure. In Chapter 3, we investigate the effect of connectivity between annihilators in alternating co-polymer systems, discussing the impact on ground state photophysical properties and upconversion efficiency. Finally in Chapter 4, we introduce an approach for using computational analysis as a high-throughput tool for identifying potential novel annihilator molecules.

Chemistry

Annihilation reactions

Anthracene

Dendrimers

Photovoltaic power generation

Photochemotherapy

Optogenetics

Polyhedral oligomeric silsesquioxanes in catalysis and photoluminescence applications

Vautravers, Nicolas R.

January 2009

Cubic Polyhedral Oligomeric SilSesquioxanes (POSS) of general formula Si₈O₁₂R₈ (R = alkenyl, alkoxy, aryl, hydrogen...) have found applications in various fields ranging from biology to chemistry. Besides the advantage of presenting the characteristic dendritic globular shape at low generation, these three-dimensional molecules, easily modified by organic or inorganic reactions, quickly exhibit multiple end groups at their periphery, thus featuring attractive properties in catalysis and photoluminescence applications. Various dendritic POSS containing diphenylphosphine moieties at their periphery have been used in the methoxycarbonylation of ethene. Those with a -CH₂CH₂- spacer between the silicon and the phosphorus atoms (G0-8ethylPPh₂ and G1-16ethylPPh₂) only produce methyl propanoate whilst a similar dendrimer with a -CH₂- spacer between Si and P (G1-16methylPPh₂) gives only copolymer. The effect of the molecular architecture is discussed in comparison with the selectivities observed when using small molecule analogues. A wide range of non dendritic monodentate phosphines has also been studied in this reaction showing that low steric bulk and high electron density favours polyketone formation. The poorly active, monodentate SemiEsphos phosphine has been turned into an active ligand for rhodium catalysed vinyl acetate hydroformylation by attachment to the periphery of a Polyhedral Oligomeric Silsesquioxane. Whilst some of these dendritic ligands have shown activity, others precipitated upon mixing with the rhodium precursor. Modelling studies correlating the experimental facts have shown that the former are more compact and rigid in comparison to the latter, which are more flexible and hence more prone to monodentate binding to rhodium and cross-linking. Grubbs cross metathesis has been used to functionalize octavinylsilsesquioxane with fluorescent vinylbiphenyl modified chromophores to design new hybrid organic-inorganic nanomaterials. Those macromolecules have been characterized by NMR, microanalyses, MALDI-TOF mass spectrometry and photoluminescence. This last method was shown to be an interesting tool in the analysis of the purity of the cube derivatives. Reduction of the peripheral 4`-vinylbiphenyl-3,5-dicarbaldehyde groups on a Polyhedral Oligomeric Silsesquioxane (POSS) with NaBH₄ or LiAlH₄ activates the fluorescence of this macromolecule by turning the aldehydic functions into primary alcohols providing novel optical sensors for reducing environments.

541.39

Characterisation of organic materials for photovoltaic devices

Lewis, Andrew J.

January 2006

This thesis presents an investigation into a wide range of potential materials for organic photovoltaic (PV) devices. A variety of optical techniques are used to define physical parameters for each material such as the photoluminescence quantum yield (PLQY), absorption coefficient and exciton diffusion length. Electrical characterisation is used to determine the optimal structure for devices fabricated with these materials. A number of novel materials are presented in this thesis. These include new polymers, both soluble and precursor, and a relatively new class of material, the conjugated dendrimer. These are highly configurable branching molecular structures that enable fine tuning of material properties. Work on polymers presented in this thesis investigates how such materials can be improved by testing the effect of small changes to their molecular structure. One of these changes had significant effects upon the overall material characteristics. The introduction of a dipole across a polymer successfully created a charge separating material without the need for an extra species such as C60 to be present. The introduction of the conjugated dendrimer to PV applications allows significant scope for molecular engineering. Dendrimers enable tight control over certain aspects of the molecular properties. Small changes can be made such as colour tuning or solubility that enable optimisation to be performed on the molecular level, rather than on device structure. Such changes produced significantly higher internal quantum efficiencies (> 90%) than typical polymer devices and offer the prospect of power conversion efficiencies in excess of 10%. Time-resolved luminescence (TRL) spectroscopy was used to characterise the behaviour of photogenerated excitons within organic films. The investigation of exciton diffusion length was performed upon two polymers, each utilising two different time-resolved methods; diffusion to a quencher and exciton-exciton annihilation. It was found that diffusion in polythiophene films is anisotropic and the photoluminescence lifetime is dependent upon film thickness. This is explained by the formation of self-ordered microstructures during the spin coating process. Data modelling was performed which took into account both the thickness variation and the interaction of excitons with a quenching interface producing a much more realistic approach than previously published work.

535

Synthesis of multi-functional dendrimers for targeted delivery of nucleic acids

Wang, Qi

16 November 2012

Nous avons démontré que structurellement flexibles poly(amidoamine) (PAMAM) dendrimères sont efficaces système de livraison de siRNA in vitro et in vivo récemment. Nous voulons mener une enquête plus approfondie sur la livraison de siRNA ciblés en utilisant des dendrimères conjugués avec des ligands spécifiques ou d'anticorps, qui peuvent reconnaître les récepteurs correspondants ou des protéines exprimées à la surface des cellules. De cette façon, le siRNA peuvent être livrés spécifiquement aux cellules d'intérêt, conduisant à une délivrance ciblée, ce qui peut améliorer l'efficacité livraison et de réduire la toxicité en évitant les interactions non spécifiques et à des doses plus faibles. À cette fin, nous avons développé des dendrimères portant une chaîne PEG long et un dendron individu polyvalent. La chaîne PEG est de libérer l'encombrement stérique entre dendrimère et ligand / anticorps, tandis que le dendron multivalent fournit une plate-forme d'une conjugaison contrôlable de ligands. Par ailleurs, nous avons également conçu et synthétisé une autre dendrimères PEGylées portant un groupe thiol libre pour la préparation des anticorps / dendrimère conjugués. / We have demonstrated that structurally flexible poly(amido)amine (PAMAM) dendrimers are efficient siRNA delivery system in vitro and in vivo recently. We would like to undertake further investigation on targeted siRNA delivery using dendrimers conjugated with specific ligands or antibodies, which can recognize the corresponding receptors or proteins expressed on the cell surface. In this way, siRNA can be delivered specifically to the cells of interest, leading to targeted delivery, which can further improve the delivery efficiency and reduce the toxicity by avoiding non-specific interactions and at lower doses. To this end, we have developed dendrimers bearing a long PEG chain and an individual multivalent dendron. The PEG chain is to release the steric congestion between dendrimer and ligand/antibody, whereas the multivalent dendron provides a platform of a controllable conjugation for ligands. Besides, we also designed and synthesized another PEGylated dendrimers bearing a free thiol group for the preparation of antibody/dendrimer conjugates.

Dendrimères

Livraison de gènes

Des ligands

Livraison ciblée

Les dendrimères PEGylées

Dendrimers

Gene delivery

Ligand

Targeted delivery

PEGylated dendrimers

Theory and molecular simulations of functional liquid crystalline dendrimers (LCDrs) / Θεωρία και υπολογιστικές προσομοιώσεις λειτουργικών δενδρόμορφων πολυμερών

Workineh, Zerihun

07 May 2015

Dendrimers are a class of monodisperse polymeric macromolecules with a well defined and highly branched three-dimensional architecture. Their well-defined structure and structural precision makes them outstanding candidates for the development of new types of multifunctional super-molecules and materials with applications in medicine and pharmacy, catalysis, electronics, optoelectronics, etc. Liquid Crystalline Dendrimers (LCDrs) are a relatively new class of super-molecules which are based on the functionalization of common dendrimers with mesogenic (liquid crystalline) units. The combination of the fascinating molecular properties of the common dendrimers with the directionality of the mesogenic units have produced a novel class of liquid crystal forming super-mesogens (LCDRs) with unique molecular properties that allow novel ways of supramolecular self-assembly and self-organisation. This work is mainly concerned with the computational modelling of LCRs. A coarse grain strategy is adopted for the development of computational tractable models which take explicitly into account the specific architecture, the extended flexibility and the shape anisotropy of the mesogenic units of LCDRs. The developed force field applies easily to a variety of dendritic architectures. Utilizing Monte Carlo computer simulations we study the structural and conformational behavior of single LCDrs and of systems of LCDrs either in confined geometries or in the bulk. Special emphasis is given on the modeling of the response of LCDRS on externally applied alignment fields. External fields might be fictitious aligning potentials which mimic electric or magnetic fields or fields induced by the confining substrates. The surface alignment of liquid crystalline dendrimers (LCDrs) is a key factor for many of their potential applications. We present results from Monte Carlo simulations of LCDrs adsorbed on flat, impenetrable aligning substrates. A tractable coarse-grained force field for the inter-dendritic and the dendrimer-substrate interactions is introduced. The developed force field is based on modifications of well-known interaction potentials that can be used either with MC or with molecular dynamics simulations. We investigate the conformational and ordering properties of single, end-functionalized LCDrs under homeotropic, random (or degenerate) planar and nidirectional planar aligning substrates. Depending on the anchoring constrains to the mesogenic units of the LCDr and on temperature, a variety of stable ordered LCDr states, differing in their topology, are observed and analyzed. The influence of the dendritic generation and core functionality on the surface-induced ordering of the LCDrs are examined. The study has been extended to system of LCDrs confined in nano-pores of different shapes and sizes under several anchoring conditions. Two basic confining geometries (pores) considered in this work: slit and cylindrical pores. In each confining geometry, different anchoring conditions are imposed. The Isobaric-Isothermal (NPT) Monte Carlo Simulation is used to investigate the thermodynamic and structural properties of these nano-confined systems. The ransmission of orientational and positional ordering from the surface to the middle region of the pore depends on the size of the pore as well as on temperature and on anchoring strength. In the case of cylindrical pore, alignment propagation is short ranged compared to that of slit-pore. As a benchmark of our coarse-grained modelling strategy, we have extended and tested our coarse grained Force Field for the study of Janus-like dendrimers confined on planar substrates. The obtained results indicate the capability of our model to capture successfully the highly amphipilic nature of these class dendrimers and their self-organisation properties. / Τα δενδριμερή είναι μία κατηγορία μονοδιάσπαρτων πολυμερικών μακρομορίων με δενδρόμορφη τρισδιάστατη αρχιτεκτονική. Η μοριακή αρχιτεκτονική τους και η μονοδιασπορά τους καθιστούν τα δενδριμερή ιδανικά ως πολυλειτουργικά υπερ-μόρια με εφαρμογές στην ιατρική και τη φαρμακολογία, την κατάλυση, την ηλεκτρονική και οπτοηλεκτρονική κλπ. Τα Υγρό-Κρυσταλλικά Δενδριμερή (ΥΚΔ) είναι μια σχετικά νέα κατηγορία υπερ-μορίων που βασίζονται στη χημική τροποποίηση των κοινών δενδριμερών με μεσογόνες (υγρόκρυσταλλικές) μοριακές μονάδες. Ο συνδυασμός των ιδιαίτερων μοριακών ιδιοτήτων των κοινών δενδριμερών με την κατευθυντικότητα των μεσογόνων έχουν οδηγήσει σε μια νέα κατηγορία υπερ-μεσογόνων (ΥΚΔ) με μοναδικές μοριακές ιδιότητες που επιτρέπουν νέους τρόπους (υπερ)μοριακής αυτο-συναρμολόγησης και αυτο-οργάνωσης. Η εργασία αυτή ασχολείται με τη μοντελοποίηση και την υπολογιστική προσομοίωση ΥΚΔ. Εισάγονται οι αρχές για μια αδροποιημένη μοντελοποίηση ΥΚΔ που να λαμβάνει ρητά υπόψη την ειδική αρχιτεκτονική, την εκτεταμένη μοριακή ευκαμψία και την ανισοτροπία σχήματος των μεσογόνων του ΥΚΔ. Τα δυναμικά αλληλεπιδράσεων που εισάγονται επιτρέπουν τη μοντελοποίηση ποικίλων δενδριτικών αρχιτεκτονικών. Με την χρήση υπολογιστικών προσομοιώσεων Monte Carlo μελετώνται οι μοριακές ιδιότητες απλών ΥΚΔ διαφόρων γενεών και αρχιτεκτονικών καθώς και η θερμοδυναμική συμπεριφορά και οι μετατροπές φάσεων συστημάτων ΥΚΔ. Ιδιαίτερη έμφαση δίνεται στην μοντελοποίηση της απόκρισης των LCDRS σε εξωτερικά πεδία που μπορούν να προκαλέσουν ευθυγράμμισης των μεσογόνων ομάδων του ΥΚΔ. Τα εξωτερικά εφαρμοζόμενα πεδία μπορεί να είναι δυναμικά ευθυγράμμισης που μιμούνται τα ηλεκτρικά ή μαγνητικά πεδία ή πεδία που επάγονται από τους γεωμετρικούς περιορισμούς (συνοριακές συνθήκες) που επιβάλλονται στο υλικό όταν βρίσκεται κοντά σε επιφάνειες ή περιορισμένο εντός πόρων. Η δυνατότητα επίτευξης κοινού μοριακού προσανατολισμού στις μεσοφάσεις από ΥΚΔ αποτελεί βασικό παράγοντα για πολλές από τις πιθανές εφαρμογές τους. Παρουσιάζονται αποτελέσματα προσομοιώσεων Monte Carlo Μόντε ΥΚΔ σε επαφή με επίπεδο, αδιαπέραστο υπόστρωμα που έχει τη δυνατότητα προσρόφησης (αγκύρωσης) των μεσογόνων μονάδων του ΥΚΔ υπό επιθυμητό προσανατολισμό. Τα αποτελέσματα βασίζονται σε κατάλληλα αδροποιημένο πεδίο δυνάμεων για την περιγραφή των αλληλεπιδράσεων μεταξύ των δενδριμερών καθώς και του δενδριμερούς με το υπόστρωμα. Ανάλογα με τον τύπο μοριακής αγκύρωσης στην επιφάνεια και τη θερμοκρασία, μια ποικιλία από διαφορετικούς τρόπους οργάνωσης του ΥΚΔ στην επιφάνεια παρατηρούνται και αναλύονται. Η μελέτη έχει επεκταθεί επίσης σε συστήματα ΥΚΔ περιορισμένα σε νανο-πόρους διαφόρων σχήματα και μεγεθών κάτω από διάφορες συνθήκες μοριακής αγκύρωσης. Οι δύο βασικές γεωμετρίες περιορισμού (πόροι) που μελετούνται αναφέρονται σε παραλληλεπίπεδους και κυλινδρικούς πόρους. Σε κάθε γεωμετρία επιβάλλονται διαφορετικές συνθήκες αγκύρωσης. Οι προσομοιώσεις Monte Carlo έγιναν στην ισοβαρή συλλογή (ΝΡΤ) και διερευνήθηκε η θερμοδυναμική συμπεριφορά καθώς και η μοριακή οργάνωση των συστημάτων υπό νανο-εγκλεισμό. Τα συστήματα αυτά παρουσιάζουν πλούσια θερμοδυναμική συμπεριφορά. Η μοριακή οργάνωση καθώς και η μετάδοση του προσανατολισμού και της τάξης θέσεων από την επιφάνεια προς την μεσαία περιοχή των πόρων εξαρτάται το σχήμα και τι μέγεθος του πόρου, από τη θερμοκρασία καθώς και από τις συνθήκες μοριακής αγκύρωσης στις επιφάνειες του πόρου. Για έλεγχο της αποτελεσματικότητας της στρατηγικής αδροποιημένης μοντελοποίησης που αναπτύχθηκε μελετήθηκαν επίσης αμφίφυλα δενδριμερή τύπου Janus περιορισμένα σε επίπεδη επιφάνεια. Τα αποτελέσματα των προσομοιώσεων έδειξαν την ικανότητα του μοντέλου μας να αποτυπώσει με επιτυχία το την αμφίφυλη φύση αυτών των δενδρομερών και να περιγράψει με επιτυχία διαφορετικούς τύπους αυτοργάνωσης που σχετίζονται με την αμφιφυλικότητα αυτών των μορίων και τον συνεπαγόμενο νανο-φασικό διαχωρισμό τους.

Liquid crystal dendrimers

Surface alignment

Self assembly of dendrimers

Self organisation of dendrimers

Modeling of dendrimers

Monte Carlo simulations

Surface confinement of dendrimers

Nanoconfinement

Janus dendrimers

620.192

Δενδριμερή

Νανο-εγκλεισμός

Δενδριμερή τύπου

Προσομοίωση Monte Carlo

Synthesis And Studies Of Poly(Propyl Ether Imine) (PETIM) Dendrimers

Jayamurugan, Govindasamy

03 1900

Dendrimers are hyperbranched macromolecules, with branches-upon-branches architectures, precise constitutions and molecular weights of several kiloDaltons (Figure 1). The dendritic structure remains to be an influential feature in the developments of dendrimer chemistry at large. Organometallic catalysis forms an active area, wherein the dendrimers find a defined importance. A number of dendrimer types have been utilized to study organometallic catalysis that combine the dendritic architectural principles. Chapter 1 of the Thesis summarizes the advances in the dendrimer-mediated catalyses, apart from an overview of the methods adopted to synthesize dendrimers. Chapter 2 describes the synthesis of newer types of larger generation poly(propyl ether imine) (PETIM) dendrimers. The molecular structure of a sixth generation PETIM dendrimer is shown in Figure 2. The PETIM series of dendrimers are synthesized by iterative synthetic cycles of two reductions and two Michael addition reactions. Modifications of the synthetic methods were identified, so as to facilitate the synthesis and purification of the higher generation dendrimers. Formation of the PETIM dendrimers, possessing a tertiary amine as the branch juncture and ether as the linker component, is assessed systematically by routine analytical techniques. The peripheries of these dendrimers possess either alcohols or amines or carboxylic acids or esters or nitriles, thereby opening up possibilities for varied studies. Architecturally-driven effects are searched constantly while integrating dendrimers in wide ranging studies. With knowledge that un-functionalized PAMAM and PPI dendrimers show fluorescence properties, we tested the PETIM dendrimers for their luminescence property. The photophysical properties of PETIM dendrimers presenting esters, alcohols, acid salts, nitriles and amines at their peripheries were studied. The anomalous fluorescence arising from alcohol terminated PETIM dendrimers (Figure 3) was established through a series of experiments. Various experimental parameters including pH, viscosity of the solvents, aging, temperature and concentration were used to assess the photochemical properties of the PETIM dendrimers. It was observed that generations 1 to 5 absorbed in the region of 260-340 nm, in MeOH and in aqueous solutions. Excitation of the OH-terminated dendrimer solutions at 330 nm led to an emission at ~390 nm (Figure 4). Dendrimers presenting esters, acid salts and amines at their peripheries also exhibited a similar excitation and emission wavelengths. An increase in the fluorescence intensity was observed at low pH and with more viscous solvents. Lifetime measurements showed at least two species (~2.5 and ~7.0 ns) were responsible for the emission. The quenching of the fluorescence originating from the PETIM dendrimers by inorganic anions was also established in the present study. The periodate, persulfate, perchlorate and nitrite anions quenched the fluorescence efficiently among several anions tested. An ‘oxygen-interacted moiety’, in addition to altered hydrogen bonding properties of the dendrimers, was presumed contribute to the anomalous fluorescence behavior. Chapter 3 of the Thesis elaborates photophysical studies of several PETIM dendrimers. Incorporation of catalytically active moieties at the peripheries of dendrimers was identified as an important avenue, in order to explore the effect of the dendritic architectures on the catalytic activities of chosen catalytic moieties. In order to assess the effect of the dendritic scaffold, in relation to both numbers and locations of the catalytic units, an effort was undertaken to study the catalytic activities of catalytic units, that are present in varying numbers within one generation. Partial and full phosphine-metal complex substituted three generations of dendritic catalysts were synthesized, by using a selective alkylation as a key step. The number of the primary amine groups led to define the number of phosphine groups at the peripheries. The primary amine groups were, in turn, prepared by a Michael addition of acrylonitrile and hydroxyl groups, followed by a reduction of the nitrile moieties to the corresponding amines. The first and the second generation PETIM dendrimers utilized in this study present up to four and eight hydroxyl groups at their peripheries. A partial etherification was exercised in order to mask few hydroxyl groups, useful to prepare the partially substituted phosphine groups. Subsequent Michael addition of acrylonitrile with remaining hydroxyl groups, to afford the nitrile terminated dendrimers, and a metal-mediated reduction of the nitrile to amine led to the required number of amine functionalized dendrimers. Functionalization of the peripheries with alkyldiphenyl phosphine moieties was conducted through a Mannich reaction of the amines with formaldehyde and diphenyl phosphine. The subsequent metal complexation with Pd(COD)Cl2 afforded a series of phosphine-Pd(II) complexes, for the zero, first and second generation PETIM dendrimers. Figure 5 shows the molecular structures of a partially and a fully substituted second generation dendrimer. Catalytic activities of the dendrimer-Pd(II) complexes were assessed in both Heck and Suzuki coupling reactions. A C-C bond forming reactions were studied, with the series of dendritic-Pd(II) catalysts, using Cs2CO3 as a base and at 40 oC. In an overall observation, it was found that an individual catalytic site showed a considerable increase in the catalytic activity when it was present in multiple numbers than as a single unit within the same generation (Figure 6). Figure 6. Bar diagrams of (a) Heck reaction and (b) Suzuki reaction, employing the dendritic catalysts 1 - 11. The Heck coupling reaction involved tert-butyl acrylate and iodobenzene, and the Suzuki coupling reaction involved phenyl boronic acid and iodobenzene. The observations revealed that: (i) the higher generation dendritic catalysts exhibited higher catalytic activities per catalytic site and (ii) the dendritic scaffold has a role in enhancing the activities of the individual catalytic sites. The catalysis study identified the catalytic activities that occurred when a series of catalysts within a given dendrimer generation was used. Such a study is hitherto unknown and the observations of this study address some of the pertinent queries relating to the efficiencies of multivalent dendritic catalysts. Chapter 4 of the Thesis describes the synthesis and characterization of series of organometallic PETIM dendrimer and studies of their catalytic activities. Studies on solid-supported catalysis present a significant importance in heterogeneous organometallic catalysis. Silica is a prominently utilized heterogeneous metal catalyst support. Functionalization of the solid supports with suitable chelating ligands is emerging as a viable strategy to circumvent not only the pertinent metal catalyst deterioration and leaching limitations, but also to stabilize the metal particles and to adjust their catalytic efficiencies. In exploring heterogeneous organometallic catalysis, functionalization of silica with a first generation phosphinated dendritic amine was undertaken. The synthetic scheme adopted to synthesize dendrimer functionalized silica is shown in Scheme 1. The reaction of the chloropropylated silica 4 with amine 3 was conducted in CHCl3. Complexation of the functionalized silica 5 with Pd(COD)Cl2 led to isolation of Pd(II)- impregnated silica. Scheme 1. Preparation of Pd nanoparticles stabilized by functionalized silica. It was anticipated that the ratio of phosphine to Pd(II) would be 1:0.5, resulting from a bidendate binding of the phosphine ligand to Pd metal. The observed ICP-OES result indicated that all phosphine ligands did not chelate the metal. With the desire to obtain the metal nanoparticles, the metal complex was subjected to a reduction, which was performed by conditioning 5-Pd(II) complex in EtOH. The Pd metal nanoparticle thus formed was characterized by physical methods, and the spherical nanoparticles were found to have >85 % size distribution between 2-4 nm (Figure 7). Analyses of the Pd(0) impregnated in dendrimer functionalized silica were performed using NMR, XPS spectroscopies, elemental analysis and microscopies. Figure 7. Transmission electron micrograph and histogram of 6, obtained after treatment with EtOH. The Pd-nanoparticle stabilized silica was used in the hydrogenation of several α, β-unsaturated olefins. The catalyst recycling experiments were conducted more than 10 times, and no loss in the catalytic activities were observed. Chapter 5 describes the functionalization of the silica support with diphenylphosphinomethyl-derivatized dendritic amine, palladium nanoparticle formation and the catalysis studies. Overall, the Thesis establishes the synthesis of larger generation PETIM dendrimers, studies of their anomalous fluorescence behavior, organometallic catalysis in solution, as well as, in heterogeneous conditions, pertaining to the C-C bond forming reactions and hydrogenation reactions. (For figure, graph and structural formula pl see the pdf file)

Poly Ether Imine

Dendritic Macromolecules

PETIM Dendrimers

Dendrimers

Organic Synthesis

Dendrimers - Synthesis

Dendritic Catalysts

Palladium Nanoparticles

Poly(Propyl Ether Imine) (PETIM)

Dendritic Catalysts

Palladium Nanoparticles

Dendritic Phosphine

Dimers

Organic Chemistry

Advancing dendrimer synthesis : solid-phase and self-assembly approach / Avancée dans la synthèse de dendrimères, sur support solide et par auto-assemblage

Huang, Adela Ya-Ting

11 July 2017

Les dendrimères sont très prometteurs du fait de leur structure unique et de leur multivalence. Cependant, leur synthèse souffre de problèmes de défauts de structure et de présence de produits secondaires très similaires. Des approches synthétiques alternatives sont donc fortement désirées. L'objectif de ma thèse consiste à explorer la synthèse sur support solide et l’approche d'autoassemblage pour la préparation de dendrimères.La première partie de ma thèse se concentre sur la synthèse de dendrimères en phase solide. Nous avons tout d'abord développé une méthode de synthèse pour les dendrimères poly(amidoamines) basée sur la chimie des peptides. Nous avons ensuite construit une petite bibliothèque de dendrimères de type triazine en faisant varier la taille et la terminaison des dendrimères pour créer une variété de dendrimères. Nous avons aussi tenté de synthétiser des dendrimères poly(aminoesters) bien que nous n'ayons pu les obtenir du fait du caractère labile de ces dendrimères.La deuxième partie de ma thèse vise à appliquer l’approche d'autoassemblage pour la construction de dendrimères supramoléculaires comme théranostiques combinant l'imagerie et la thérapie. Nous avons synthétisé un petit dendrimère amphiphile portant DOTA pour chélater le Gd (III). Ce dendrimère est capable de s'autoassembler en supramolécule et d’encapsuler l’agent anticancéreux doxorubicine, pour construire des agents théranostiques à base de dendrimères multivalents.L’ensemble de ma thèse se consacre au développement de stratégies en phase solide et de l'autoassemblage pour construire des dendrimères pour les applications dans les domaines biomédicaux et des matériaux. / Dendrimers hold great promise for wide applications thanks to their unique structural architecture and multivalent cooperativity. However, dendrimer synthesis often suffers from structural defects caused by incomplete reactions and difficulties associated with purification. Consequently, alternative synthetic approaches to overcome the limitations of current dendrimer synthesis are in high demand.My first PhD project mainly focuses on establishing novel strategies and methodologies for solid-phase dendrimer synthesis with advantages of convenient complete synthesis and easy purification procedures. We first developed a new and concise solid-phase synthesis of PAMAM dendrimers based on the adoption of peptide synthesis chemistry. We then constructed a small library of triazine dendrimers varying in generations and surface groups with a view to rapidly synthesizing dendrimers with structural diversity. We also strived to synthesize poly(aminoester) dendrimers although we had difficult to get it thorough.My second PhD program aims to apply the self-assembly approach for constructing supramolecular dendrimer theranostics. A small DOTA-conjugated amphiphilic dendrimer with Gd(III)-chelation was synthesized and self-assembled into supramolecular nanomicelles to encapsulate the anticancer drug doxorubicin. The obtained system constitutes a multivalent nanotheranostic to combine imaging purpose with therapeutic utility.In summary, my PhD program mainly contributes to elaborating strategies for dendrimer synthesis using both solid-phase method and self-assembly approach in the view to realizing and broadening their applications in the arenas of biomedical and material sciences.

Synthèse en phase solide

Dendrimères PAMAM inversés

Dendrimères poly(aminoesters)

Dendrimères autoassemblés

Dendrimères amphiphiles

Nanothéranostique

Solid-Phase synthesis

Inverse PAMAM dendrimers

Triazine dendrimer library

Poly(aminoester) dendrimers

Self-Assembly

Amphiphilic dendrimers

Nanotheranostics

540

Influence of Cu(II) and Glycodendrimers on Amyloid-beta-Peptide Aggregation

Klementieva, Oxana

09 March 2012

La malaltia d’Alzheimer es caracteritza per l’acumulació de plaques extracel.lulars amiloides, formades pels anomenats pèptids amiloides (Aβ40). L’homeòstasi del coure (Cu) es veu afectada en l’etiologia de la malaltia d’Alzheimer, encara que el seu rol és un fet controvertit. Per a l’estudi de la influència del Cu(II) en l’agregació del pèptid amiloide, la morfologia i l’estructura secundària dels agregats amiloides formats en presència de Cu(II) s’han utilitzat AFM, TEM, SEM, SAXS, FTIR i espectrometria de fluorescència. A més, els efectes tòxics d’aquests agregats s’han estudiat en cèl.lules neuronals. Els resultats obtinguts mostren que aquests agregats són amorfos i presenten una toxicitat més alta que les fibres. Per a l’estudi dels dendrímers de maltosa com a possibles moduladors de l’agregació i de la toxicitat del pèptide amiloide. S’ha confirmat que aquests dendrimers no són tòxics en cèl.lules neuronals i que són capaços de modular l’agregació i toxicitat del pèptid amiloide. Aquests resultats permeten considerar als dendrimers de maltosa com a possibles eines per a reduir la toxicitat dels pèptids amilodies. / Senile plaques of Alzheimer’s disease patients are composed primarily of the amyloid-β-peptide (Aβ). Recent studies implicate Cu(II) in the aetiology of AD. The role of Cu(II) in ADis currently highly disputed. Influence of Cu(II) on Aβ aggregation and amyloidogenic properties of glycodendrimers were investigated in this thesis. AFM, TEM, SEM, SAXS, FTIR and fluorescence spectroscopy were used to study a morphology and a secondary structure of Aβ-Cu(II) aggregates. The toxic effects of Aβ40-Cu(II) amorphous aggregates was confirmed for neuronal cell lines. It was shown that maltose glycodendrimers can be efficiently used to modulate Alzheimer’s amyloid peptide aggregation and inhibit cell toxicity by facilitating the clustering of amyloid fibrils. These results show that glycodendrimers are promising non-toxic agents in the search for anti-amyloidogenic compounds. It was also suggested that fibril clumping may be anti-amyloid toxicity strategy.

Alzheimer

β-amyloid

dendrimers

copper

toxicity

β-amiloide

dendrímeros

cobre

toxicidad

β-amilode

dendrimers, coure, toxicitat

coure

toxicitat

Biologia Molecular

577

61

Studies of Poly(Propyl Ether Imine) Dendrimers as Synthetic SiRNA Delivery Vectors with Relevance to Hepatitis C Virus Inhibition

Lakshminarayanan, Abirami

January 2015

Dendrimers are synthetic macromolecules with branches-upon-branches structures, nanoscale dimensions and a high density of surface groups. Presence of multiple cationic sites in dendrimers permits their efficient nucleic acid complexation and cellular internalization through endocytic pathways. PETIM dendrimers of are characterized by tertiary amine branch points, and ether linkages. A third generation PETIM dendrimer, G3(NH2)24, with nitrogen at the core and twenty four peripheral primary amines was synthesized through alternate Michael addition and reduction reactions. The ability of G3(NH2)24 to interact with DNA was ascertained by spectroscopic and bio-physical techniques. These studies established the formation of dendrimer-DNA, and complex formation was also shown to protect the plasmid DNA from nucleases. Toxicity studies in cell culture, as well as, in female Balb/c mice established the non-toxic properties of the dendrimer. G3(NH2)24 was able to mediate efficient transfection in mammalian cells and in vivo. Targeted delivery of small interfering RNA (siRNA) to hepatocytes, in order to combat hepatitis C virus (HCV) infection was undertaken to expand the scope of PETIM dendrimer based gene delivery. Functionalization of the dendrimer periphery with galactose units ensured preferential delivery to the liver through multivalent interactions with the asialoglycoprotein receptors on the liver cell surface. The delivery of siRNA to the perinuclear region, in close proximity to the HCV RNA replication site resulted in ~75% decrease in viral RNA levels in replicon containing cells, as well as, JFH-1 infectious virus systems. The dendrimer-siRNA complexes were preferentially delivered to mice liver and were active in vivo. Physico-chemical studies of the protonation pattern of PETIM dendrimer indicated that the protonation of the dendrimer amines proceeded in a shell-wise pattern from the periphery to the core. The primary amines of the dendrimer as well as the outer shell tertiary amines with pKa values ~7-10 were protonated at physiological pH and were cationic sites for nucleic acid condensation. The inner shell tertiary amines with a pKa of ~4-6 were protonated at endosomal pH and aided ‘endosomal escape’ due to the high buffering capacity of 3.5. Work described in the Thesis establish a new synthetic dendrimer vector, namely, the series of PETIM dendrimers, as a high value gene delivery vector, making in-roads towards pre-clinical and possible clinical trials in future studies.

Dendrimers

siRNA

DNA-PETIM Complexes

Poly(Propyl Ether Imine) Dendrimers

Hepatitis C Virus

PETIM Dendrimer

Dendrimer-DNA Complexation

Hepatitis C Inhibition

Organic Chemistry