Tailoring Structure and Function of Imidazole-Containing Block Copolymers for Emerging Applications from Gene Delivery to Electromechanical Devices

Green, Matthew Dale

06 December 2011

The imidazole ring offers great potential for a variety of applications including gene delivery vectors, ionic liquids, electromechanical actuators, and novel monomers and polymers. The imidazole ring provides a unique building block for these applications due to its thermal stability, aromatic nature, ability to form ionic salts, and ease of functionalization. Free radical polymerization of 1-vinylimidazole (1-VIm) and free radical copolymerizations with methyl methacrylate (MMA) and n-butyl acrylate (nBA) afforded homopolymers and copolymers with tunable solution and thermal properties. Aqueous SEC provided reproducible and reliable molecular weights for poly(1-VIm) in the absence of polymer aggregates. Analysis of the thermal properties revealed ideal random copolymers with MMA and non-ideal copolymers with nBA. Small angle X-ray scattering determined that the spacing between ionic groups remained constant with increased nonionic comonomer incorporation while the spacing between adjacent polymer backbones increased. Functionalization of 1-VIm with varying length alkyl halides and polymerization prepared a series of imidazolium homopolymers. Anion exchange reactions controlled the thermal and solution properties, and the bromide counteranion quantitatively exchanged to tetrafluoroborate (BF4), trifluoromethanesulfonate (TfO), and bis(trifluoromethanesulfonyl)imide (Tf2N). Thermogravimetric analysis revealed that thermal stability increased with decreased alkyl substituent length and larger counteranion size, and differential scanning calorimetry determined that glass transition temperature (Tg) decreased with increased alkyl substituent length and larger counteranion size. Electrochemical impedance spectroscopy determined the ionic conductivities of the imidazolium homopolymers, and analysis using the Vogel-Fulcher-Tammann equation revealed that the activation energy of ion conduction increased as alkyl substituent length increased. Polymer morphology determined using X-ray scattering also influenced the ionic conductivity. As the alkyl substituent length increased, the spacing between adjacent polymer backbones increased, which decreased the ionic conductivity due to the ion-hopping mechanism of ion conduction. Unsuccessful attempts to control the radical polymerization of 1-VIm led to the investigation of 1-(4-vinylbenzyl)imidazole (VBIm), which is a styrenic-based monomer with excellent propagating radical stability. Triblock copolymers incorporating VBIm monomer into a soft random copolymer center block and reinforcing, hard segment outer blocks provided a template for tuning the properties of the ionomer membranes for electroactive devices. Analysis of the morphology and mechanical properties using small angle X-ray scattering and dynamic mechanical analysis determined microphase separation and optimal mechanical properties for electromechanical transducer fabrication. Testing electromechanical transducers revealed superior performance relative to the benchmark Nafion®. Optimization of triblock copolymer design criteria through varying the comonomer ratio of VBIm and nBA in the soft center block, quaternization reactions, and ionic liquid introduction influenced mechanical properties and ionic conductivity. Higher percentages of VBIm and quaternization of VBIm in the random central block increased Tg and ionic conductivity. IL selectively incorporated into the imidazole-containing phases with no leakage observed for ionic systems, reduced the center block Tg, and increased ionic conductivity. Controlling charge density along poly(1-VIm) through well-defined alkylation reactions with 1-bromobutane provided a potential vector for nonviral gene delivery and polyanion binding. Analysis of DNA and heparin binding using gel electrophoresis revealed a decrease in N/P ratio with increased alkylation percentage. Dynamic light scattering indicated an increase in zeta potential with increasing alkylation percentages, and relatively uniform polyplex sizes in aqueous media. The MTT assay developed cytotoxicity profiles with little toxicity prior to 83% alkylation. Finally, the luciferase expression assay revealed inefficient nucleic acid delivery to multiple cell types. Synthesis of poly(1-VIm) vectors with glutathione conjugates provided an avenue for simultaneous therapeutic gene and anti-oxidant delivery in vitro. Cytotoxicity assays of cells pretreated with glutathione-conjugated poly(1-VIm) prior to oxidative stress showed that higher glutathione conjugation levels improved cell viability. / Ph. D.

imidazole

block copolymers

ionenes

nitroxide-mediated polymerization

gene delivery

ionic polymer transducers

ionic conductivity

Synthesis and Characterization of Functionalized Electroactive Polymers for Metal Ion Sensing

Joseph, Alex

January 2014

Metal ion contamination in surface and ground water is a major threat as it has a direct implication on the health of terrestrial and aquatic flora and fauna. Lead (Pb2+), mercury (Hg2+), cadmium (Cd2+), nickel (Ni2+), copper (Cu2+) and cobalt (Co2+) are few of these metal ions which are classified under the high risk category. Of these, lead and mercury are of greater concern, as even nanomolar concentrations can be lethal, as they can be bio-accumulated and result in physiological as well as neurological disorders. In Asian countries like India and China, heavy metal pollution is more prevalent, as a consequence of poor governmental policies or ineffective or inadequate measures to combat this problem. In recent times, the monitoring and assessment of water pollution is a critical area of study, as it has a direct implication for its prevention and control. The major techniques used for metal ion detection are atomic absorption spectroscopy (AAS), X-ray fluorescence, ion chromatography, neutron activation, etc. Alternatively, the electrochemical, optical and electrical methods provide a platform for the fabrication of portable devices, which can facilitate the on-site analysis of samples in a rapid and cost-effective manner. This has led to a new field of research called chemical sensors or chemo sensory devices. The main aim of this study is to develop various chemosensory materials and test their response towards metal ion sensing. In this study, electroactive polymers have been synthesized for various sensor applications. The focus has been to design synthesize and test various functionalized electroactive polymers (FEAP) for the development of electrochemical, optical and chemoresistive sensors. Electroactive polymers like polyaniline, polypyrrole, polypyrrole grafted to exfoliated graphite oxide and dipyrromethene conjugated with p-(phenylene vinylene) have been synthesized and evaluated after functionalizing with metal coordinating ligands. These metal coordinating ligands were selected, in order to enhance their metal uptake capacity. Various metal ligands like imidazole, tertiary amine group, iminodiacetic acid, and dipyrromethene incorporated either in the polymer backbone or as a part of the backbone have been chosen for the metal binding. These functionalized electroactive polymers (FEAP) served as active material for metal ion sensing. The present investigation is subdivided into three sections. The first part includes design and chemical synthesis of the functionalized polymers by a series of organic reactions. The synthesis has been followed up by characterization using spectroscopic methods including NMR, FTIR, GCMS and Mass spectrometry. In the second part of the investigation, the synthesized polymer has been characterized for the changes in electronic, electric and optical properties after interaction with the selected metal ions. For this, the FEAP is allowed to interact with various metal ions and the changes in the relevant properties have been measured. This includes the study of changes in the conductivity, electronic properties like absorption or emission of the polymer, changes in the redox properties, etc. The third phase of investigation deals with the fabrication of the devices using the active FEAP. The sensor devices comprised of either films, or electrode modified with FEAP or solution of the FEAP, in combination with an appropriate technique has been used for the sensing. The major objectives are enumerated below 1. Functionalzation of polyaniline with imidazole functional group to get imidazole functionalized polyaniline (IMPANI) and study of the electronic, electrical and optical properties of the same. 2. Preparation of films of IMPANI and study of the change in conductivity of the film upon interaction with various metal ions, namely Cu2+, Co2+ and Ni2+ in their chloride form. 3. Synthesis of amine functionalized aniline monomer and chemical graft polymerization onto exfoliated graphite oxide as a substrate to synthesise the amine funtionalised polyaniline grafted to exfoliated graphite oxide (EGAMPANI). Modification of the carbon paste electrode (CPE) with EGAMPANI and study of the electrode characteristic. 4. Study of the electrode properties of EGAMPANI modified carbon paste electrode. 5. Evaluation of the EGAMPANI modified carbon paste electrode as a multi-elemental voltammetric sensor for Pb2+, Hg2+ and Cd2+ in aqueous system. 6. Functionalization of polypyrrole with iminodiacetic acid and characterization of the polymer to synthesis iminodiacetic acid functionalized polypyrrole (IDA-PPy). 7. Modification of the CPE with IDA-PPy by drop casting method and evaluation of the Pb2+ sensing properties. 8. Study of the effect of other metal ions say Hg2+, Co2+, Ni2+, Zn2+, Cu2+ and Cd2+ on the anodic stripping current of Pb2+ using EGAMPANI modified CPE. 9. Synthesis of dipyrromethene-p-(phenylene vinylene) conjugated polymer for heavy metal ion sensing. 10. Study of the changes in the optical absorption and emission properties of the polymer in THF and evaluation of the change in these optical properties upon interaction with the metal ions as analyte. The salient findings of the research work are highlighted as follows, In the first synthesis, aniline has been functionalized with imidazole group and this monomer has been chemical oxidatively polymerized to obtain imidazole functionalized polyaniline (IMPANI). The synthesized polymer possesses a nano-spherical structure, as confirmed from the morphological characterisation using scanning electron microscopy. The IMPANI has been interacted with a representative metal ion, copper (II) chloride, and the copper complexed polymer (Cu-IMPANI) has been subjected to various studies. The coordination of copper with IMPANI results in an increase of molecular weight of the polymer as a result of aggregation, as observed from dynamic light scattering measurements. Apart from this, a significant finding is the decrease of the pH of the system after copper ion coordination attesting to the generation of a secondary hydrochloride ion during the coordination of the copper to the imidazole side chain. This is further confirmed by an increase in conductivity of the Cu-IMPANI compared to IMPANI, measured using the four-probe technique. The increase of conductivity due to copper coordination is one order of magnitude higher. The films which have been prepared from IMPANI and Cu-IMPANI exhibit different morphology. The Cu-IMPANI film prepared by prior co-ordination of Cu ion with IMPANI powder shows a flaky structure, which is not preferable for the conductivity measurements, as a consequence of discontinuity in the medium. To overcome this problem, IMPANI films were initially prepared and then interacted with copper ions for a desired duration, before measurement of the conductivity. This latter procedure enabled the preparation of smooth films for the development of chemoresistive sensors. In continuation of the initial study highlighted above, IMPANI films of thickness 0.02 ± 0.001 mm have been prepared using IMPANI and PANI in DMPU in the ratio of 7:3 by mass. After exposure of the films with respective metal chlorides, such as Ni2+, Co2+ and Cu2+, a change in conductivity is observed in the concentration range of 10-2 to 1 M of metal chlorides. The sensor response may be arranged in the sequence: Ni2+ > Cu2+ > Co2+ at 1M concentration. On the contrary, films prepared from PANI-EB under identical conditions do not exhibit any appreciable change in conductivity. The optimum exposure time is determined to be 10 min for a maximum change in conductivity, after exposure to the chosen metal ions. In the second system taken up for investigation, a tertiary amine containing polyaniline (AMPANI) has been grafted to exfoliated graphite oxide. The amine containing polyaniline grafted to exfoliated graphite oxide (EGAMPANI) has been characterised for structural, morphological and elemental composition. The grafting percentage has been determined to be 7 % by weight of AMPANI on the EGO surface. The synthesized EGAMPANI (5 weight %) has been used to modify carbon paste electrode (CPE) for electrochemical sensor studies. Based on the differential pulse anodic stripping voltammetric studies, the electrochemical response may be arranged in the following sequence: Pb 2+>Cd 2+>Hg 2+ The minimum detection levels obtained are 5×10-6, 5×10-7, and 1.0×10-7 M for Hg2+, Cd2+ and Pb2+ ions respectively. In the next study, an iminodiacetic acid functionalized polypyrrole (IDA-PPy) has been synthesized and characterised for its elemental and structural properties. This has been further used to modify the CPE by drop casting method and used for the specific detection of Pb2+ in acetate buffer. Various parameters governing the electrode performance such as concentration of depositing solution, pH of depositing solution, deposition potential, deposition time, and scan rate, have been optimized to achieve maximum performance and found to be 20 μl, 4.5, -1.3 V, 11 min, 8 mV s-1 respectively for the chosen parameters. Additionally, the influence of other heavy metal ions on the lead response has been studied and it is observed that Co, Cu and Cd ions are found to be interfering. Further, the response of Cd, Co, Cu, Hg, Ni and Zn on IDA-PPy functionalized electrode has been evaluated. The selectivity of IDA-PPy modified electrode for Pb2+ is observed in the concentration range of 1 × 10-7 M and below. The IDA-PPy modified CPE shows a linear correlation for Pb2+ concentration in the range from 1×10-6 to 5×10-9 M and with a lowest limit of detection (LLOD) of 9.6×10-9 M concentration. The efficacy of the electrode for lead sensing has also been evaluated with an industrial effluent sample obtained from a lead battery manufacturing unit. The fourth synthesis pertained to the development of an optical sensor for Fe2+, and Co2+ ions. For this, dipyrromethene as a metal coordinating ligand in conjugation with p-phenylenevinylene has been synthesized and tested for its structural as well as optical properties. It is observed that the polymer shows three absorptions, namely at 294 nm, 357 nm and a major absorption observed as a broad band ranging from 484 to 670 nm. The emission spectrum of the polymer excited at 357 nm shows a characteristic blue emission with a maximum intensity centered at 425 nm. The emission quenching in the presence of various metal ions have been tested and are found to be quenched in presence of Fe2+ and Co2+ ions. All the other metal ions tested namely, Cr3+, Cu2+, and Zn2+ are not found to exhibit any change in the emission spectra below the concentration of 1 × 10-4 M. The linear correlation of the emission intensity with the concentration of the Co2+ and Fe2+ ions has been determined using Stern-Volmer plot. For Co2+ the Stern-Volmer regime is observed from 1×10-4 to 9×10-4 M concentration and the quenching constant Ksv is determined to be 8.67 ×103 M-1. For Fe2+, the linearity is found to be in the regime of 1×10-5 to 9×10-5 M and the quenching constant Ksv is determined to be 7.90 × 103 M-1. In conclusion, different electroactive polymers functionalized with metal coordinating ligands have been synthesized, characterised and evaluated for metal sensing applications. Techniques like electrochemical, optical and conductivity have been used to characterise the response of these FEAP towards metal sensing. It is can be concluded that the electrochemical sensors are more reliable for sensing especially at very low concentrations of metal ions such as Pb, Cd and other techniques like optical and conductimetric are good for detecting metal ions namely Fe, Co, Ni, Cu. The selectivity towards the metal ions is a function of the metal chelating ligand and the extent of sensitivity is dependent upon the technique employed.

Electroactive Polymers

Metal Ion Sensing

Chemosensory Materials

Functionalized Electroactive Polymers

Synhesis of Electroactive Polymers

Conducting Polymers

Carbon Paste Electrodes (CPE)

Graphite Flakes

Imidazole-functionalized Polyaniline

Materials Science

Ligands hybrides : synthèse et chimie de coordination / Hybrids ligands : synthesis and coordination chemistry

Massard, Alexandre

24 November 2011

Ce manuscrit traite de la synthèse de ligands hybrides et de leur chimie de coordination. La première partie est consacrée aux ligands Cp-imidazole, Cp-imidazolium et Cp-phosphine. Plusieurs voies de synthèse ont été développées pour accéder à ces ligands mixtes. Leur chimie de coordination est également étudiée avec le titane. Dans la seconde, une technique développée au laboratoire pour synthétiser des phosphine-oléfines a été appliquée pour obtenir un ligand phosphine-diène, possédant trois sites de coordination potentiels. Avec différents métaux de transitions, nous avons étudié les modes de coordination de ce ligand hybride. Certains complexes formés ont également été testés en catalyse. Dans la troisième partie a été étudiée la chimie de coordination de bisaminophosphoniums vis-à-vis du titane. Ces ligands ont pu être coordinés à différents états de déprotonation, conduisant à des complexes cationiques ou neutres. / This manuscript deals with the synthesis of hybrids ligands and their coordination ability. The first part is dedicated to Cp-imidazole, Cp-imidazolium and Cp-phosphine ligands. Several synthetic routes have been developed to reach these mixed ligands and their coordination chemistry has been studied with titanium. In a second part, a method developed in our laboratory to synthesize phosphine-olefines was applied to obtain a phosphino-diene bearing three potential coordination sites. We have studied the coordination modes of this hybrid ligand using various transition metals and some of the formed complexes were tested in catalysis. In the third part is described the coordination chemistry of bisaminophosphoniums towards titanium. These ligands were coordinated in various deprotonation states, leading to cationics and neutrals complexes.

Ligand hybride

Chimie de coordination

Spirane

Imidazole

Titane

Phosphine-oléfine

Catalyse

Couplage d’Ullmann

Bisaminophosphonium

Bisiminophosphorane

Phosphasalen

Hybrid ligand

Coordination chemistry

Spirane

Imidazole

Titanium

Carbene

Phosphino-alkene

Catalysis

Bisaminophosphonium

Bisiminophosphorane

Phosphasalen

541.39

Nouveaux hydrogels à base de polysaccharide obtenus par voie biomimétique ou par photoréticulation. / New hydrogels based on polysaccharide obtained by biomimetics or UV crosslinking

Hadrich, Ahdi

28 June 2019

Dans un contexte de démarche écoresponsable et pour répondre aux exigences de biocompatibilité notamment dans les applications cosmétiques et biomédicales, nous avons développé de nouveaux hydrogels à base de polysaccharides neutres et anioniques en utilisant deux voies originales. La 1ère approche est biomimétique et a consisté à mimer un phénomène d’élaboration naturelle d’hydrogels que l’on retrouve chez certains végétaux pour lesquels une enzyme, la laccase, permet de créer des liens de réticulation par dimérisation des composés phénoliques (en l’occurrence de l’acide férulique FA) présents sur les arabinoxylanes des mucilages des graines de céréales par exemple. Notre travail a ainsi consisté à greffer de l’acide férulique via deux chimies différentes de type imidazole et carbodiimide respectivement pour des polysaccharides neutres ou anioniques. Nous avons ainsi fonctionnalisé trois polysaccharides : le pullulane ou PUL (neutre modèle), le carboxyméthylpullulane ou CMP (anionique modèle) et l’acide hyaluronique ou HA (anionique d’intérêt). Des taux de greffage compris entre 2 et 25% ont été obtenus. L’étude physicochimique en régimes dilué et semi-dilué a permis de mettre en évidence un comportement associatif lié au caractère amphiphile des polysaccharides fonctionnalisés. La réticulation en présence de laccase, suivie in situ en rhéologie, a été réalisée avec succès sur les différents systèmes envisagés avec des contrôles possibles de la cinétique, des propriétés mécaniques finales ou encore du gonflement des hydrogels en fonction du caractère neutre ou chargé des polysaccharides, du degré de substitution en acide férulique, de la concentration en polymère ou de l’activité enzymatique fixée. Les dérivés synthétisés ont globalement démontré des activités biologiques (antioxydante et cytocompatible) intéressantes. La deuxième approche repose sur la photoréticulation possible de polysaccharides (PUL, CMP et HA) fonctionnalisés par le greffage d’amine/acide gras mono ou polyinsaturé (oleylamine, acide oléique et linoléique) via la chimie des imidazoles. Si le pullulane modifié par l’acide linoléique à 2% s’est avéré non hydrosoluble en raison de son caractère neutre, tous les autres dérivés avec des taux de greffages de 3 et 10% ont démontré une bonne solubilité dans l’eau. Les études physicochimiques mettent en évidence un très fort caractère associatif de ces dérivés amphiphiles avec la formation de gels physiques en régime semi-dilué. La photoréticulation a été démontrée en rhéologie sous irradiation UV in situ en présence d’un photoamorceur de type Darocur 1173®. Les résultats préliminaires obtenus selon cette approche en photoréticulation ouvrent ainsi des perspectives intéressantes. / In the framework of an eco-responsible context and to take advantage of biocompatibility, notably in cosmetic and biomedical applications, we have developed new hydrogels based on neutral and anionic polysaccharides using two original routes. The first approach is biomimetic and consists of mimicking a natural development of hydrogels that is found in certain plants for which an enzyme, laccase, allows to create crosslinks by dimerization of phenolic compounds, in occurrence of ferulic acid (FA) present on arabinoxylans mucilage of cereal seeds for example. Thus, our work consisted in grafting ferulic acid via two different chemical ways that means imidazole and carbodiimide respectively for neutral or anionic polysaccharides. We functionalized three polysaccharides: pullulan or PUL (neutral model), carboxymethylpullulane or CMP (model anionic) and hyaluronic acid or HA (anionic of interest) with grafting rates of between 2 and 25%. The physicochemical study in diluted and semi-diluted regimes evidenced an associative behavior due to the amphiphilic character of the functionalized polysaccharides. The crosslinking in the presence of laccase, followed in situ thanks to rheology, has been successfully performed on the various envisaged systems with possible controls of kinetics, the final mechanical properties or the swelling of the hydrogels as a function of the neutral or charged nature of the polysaccharides, the degree of substitution in FA, the polymer concentration or the enzymatic activity. The synthesized derivatives have generally demonstrated interesting biological activities (antioxidant and cytocompatibility). The second approach is based on the possible photocrosslinking of polysaccharides (PUL, CMP and HA) functionalized by the grafting of mono or polyunsaturated fatty amine/acid (oleylamine, oleic acid and linoleic acid) via imidazole chemistry. If pullulan grafted with 2% of linoleic acid was found to be water-insoluble due to its neutral character, all other derivatives (i.e. anionic ones) with grafting rates of 3 and 10% showed good solubility in water. The physicochemical studies show a very strong associative character of these amphiphilic derivatives with the formation of physical gels in semi-diluted regime. Photocrosslinking has been demonstrated in situ thanks to rheology/UV irradiation in the presence of a Darocur 1173® photoinitiator. The preliminary results according to this photocrosslinking approach thus open interesting perspectives.

Hydrogel

Polysaccharide

Acide férulique

Acide gras insaturé

Réticulation

Laccase

Biomimétisme

Rayonnement UV

Physicochimie

Rhéologie

Antioxydant

Imidazole

Carbodiimide

Cytocompatibilité

Hydrogel

Polysaccharide

Ferulic acid

Unsaturated fatty amine/acid

Crosslinking

Laccase

Biomimicry

UV Radiation

Physico-chemistry

Rheology

Antioxidant

Imidazole

Carbodiimide

Cytocompatibility

547.8

Espectroscopia Raman de líquidos iônicos imidazólicos: interações interiônicas, organização estrutural e efeitos de micro-ambiente / Raman Spectroscopy study of imidazolic ionic liquids: interionic interactions, structural organization and micro-environment effects

Rodrigues, Fabio

02 September 2010

O presente trabalho tem como objetivo principal um estudo sistemático de líquidos iônicos imidazólicos, ou seja, sais líquidos a temperaturas relativamente baixas derivados do anel imidazol, tendo como técnica principal a espectroscopia Raman. Foram estudados os cátions 1-alquil-3- metilimidazólio e 1-alquil-2,3-dimetilimidazólio, sendo o grupo alquil composto por 2, 4, 6, 8 ou 10 átomos de carbono, com os ânions brometo, hexafluorofosfato ou bis(trifluorometanosulfonil)imida (TFSI-), totalizando 30 sistemas distintos. O estudo foi dividido em três partes. Na primeira, foram estudados compostos derivados de imidazol, neutros e catiônicos, para entender as diferenças entre os cátions formadores (o ânion foi desconsiderado) de ILs e seus precursores. A espectroscopia Raman forneceu informações sobre as alterações nos modos vibracionais com as substituições, sendo possível constatar que os modos do anel se tornaram menos intensos com as substituições e a contribuição de grupos -CH se tornou mais importante. Cálculos de cargas de Mulliken foram realizados para estas espécies e os resultados obtidos reforçam as interpretações dos espectros vibracionais. A segunda etapa consistiu no estudo de ILs puros, analisando tanto cátion quanto ânion. A cadeia carbônica tem grande influência no espectro Raman, sendo observadas bandas atribuídas a confôrmeros diferentes, que aparecem em maior número e menor intensidade à medida que a cadeia se torna menor. Os ânions foram estudados nos ILs e em sais inorgânicos, sendo observados espectros muito semelhantes destes nos diversos ILs, porém diferentes nos sais inorgânicos. Os mesmos resultados foram encontrados nas medidas de XANES (espectroscopia de raio-X próxima à borda de absorção), que permitiu sondar a estrutura eletrônica ao redor de diversos átomos, utilizada como técnica auxiliar. Após analisado cátions e ânions, foi possível caracterizar o par iônico formado por estes íons, enfocando as bandas Raman das cadeias carbônicas, já que, como a interação de Coulomb é baixa, estes se ligam principalmente via ligação de hidrogênio. Para os ILs com -H no carbono 2, o ânion Br- forma um par iônico mais forte com os diversos cátions, enquanto PF6- e TFSI-</sup formam pares iônicos fracos, já que são menos coordenantes. A adição do metil no carbono 2 altera essa dinâmica, e mesmo o brometo não consegue formar um par iônico forte. Por fim, a terceira etapa visou o estudo destes sistemas em solução com um solvente molecular, a dimetilformamida (DMFA), usada como sonda, pois foi analisado o deslocamento da banda correspondente ao grupo C=O. Em um primeiro momento foram estudadas soluções equimolares de ILs e DMFA, em que foi possível observar a estruturação dos ILs na mistura, diferenciando efeito do cátion e do ânion. Posteriormente, selecionou-se alguns sistemas para um estudo em diversas frações molares de IL e DMFA. Em baixas concentrações de IL, o comportamento foi semelhante ao observado para solventes moleculares. Conforme se aumentou a concentração destes sais, observou-se um comportamento anômalo no deslocamento da banda C=O, que pode ser atribuída ao caráter iônico destes sistemas. / The present work aims to be a systematic study, by Raman spectroscopy, of imidazolic ionic liquids, which means low temperature molten salts derived from imidazole ring. The study involved the cations 1-alkil-3-methylimidazolium and 1-alkyl-2,3-dimethylimidazolim, being alkyl chain composed of 2, 4, 6, 8 or 10 carbon atoms and with the anions bromide, hexafluorophosphate and bis(trifluoromethanesulfonyl)imide (TFSI-), in a grand total of 30 species with distinct properties. The study has been separated in three steps. The first one aimed to study both neutral and cationic molecules derived from imidazolic ring to understand the difference between cations that can form ILs and their precursors. Raman spectroscopy gave information about the changes in the vibrational modes with the substitutions. The results show that the intensity of modes from the ring decreases with the substitutions, while the contribution of -CH modes increases. In accordance with this are the results obtained from theoretical calculation of Mulliken charge, used as an auxiliary technique. The second step consisted in the study of pure ILs, analyzing both cation and anion effects. The carbonic chain plays a major role in Raman spectra, exhibiting bands attributed to different conformers. These bands become more abundant and less intense when the chain length increases. The anions have been studied in both ILs and inorganic salts, being observed very similar spectra for all the ILs but different ones for the inorganic salts. These results have been confirmed by XANES (X-ray absorption near edge structure) spectroscopy, which makes possible to probe the electronic structure of different atoms. After the analysis of both cation and anion, it was possible to better understand the ion pair formation in ILs, focusing in hydrogen bonds in the carbonic chain, since the Coulombic interaction is too weak. For ILs with hydrogen in carbon 2, it could be observed that bromide anion forms a stronger ion pair when compared to PF6- and TFSI-, less coordinating anions. The addition of methyl group in carbon 2 modifies this behavior, and even bromide does not form the strong ion pair. At last, the third step focused in the better understanding of binary systems containing ILs and a molecular solvent, dimethylformamide (DMFA), used also as probe since the shift of the band attributed to C=O group was used in this study. In a first stage it has been studied equimolar solutions of ILs and DMFA, in which it has been observed the organization of ILs in the mixture, and the contribution of both cation and anion. The second stage was dedicated to the understanding of these mixtures with different molar fraction of ILs and DMFA, for which some ILs have been selected. For low concentration of ILs, their behavior was similar to molecular solvents, but when the concentration of IL was increased, an anomalous behavior in the shift of C=O band has been observed, which can be attributed to the ionic character of these systems.

Espectroscopia Raman

Imidazol

Imidazole

Interações interiônicas

Interionic interactions

Ionic Liquids

Líquidos Iônicos

Molten salt.

Raman Spectroscopy

Sal fundido

Synthesis and Characterization of Five New Tetrakis(N-phenylacetamidato) Dirhodium(II) Amine Complexes and One Molybdenum Cofactor Described Crystallographically

Harris, Cragin K

01 May 2015

Six new crystal structures were determined using a Rigaku Mercurcy 375/MCCD(XtaLab mini) diffractometer. The structure of a molybdenum cofactor was solved resulting in an R1 (R1 = Σ ||Fo| - |Fc|| / Σ |Fo|) of 3.61% despite the presence of a disordered DMSO molecule. New Tetrakis(N-phenylacetamidato) Dirhodium(II) complexes were synthesized and characterized. Two 2,2-cis-[Rh2(NPhCOCH3)4]•(C3H4N2)x where x= 1 or 2 were successfully crystallized and solved with R1 values below 5%. Additional studies were conducted via NMR to observe formation of both products. Three potential catalysts were synthesized starting with 3,1-[Rh2(NPhCOCH3)4]. The resulting compounds were a mono adduct 3,1-[Rh2(NPhCOCH3)4]•(C3H4N2), and two dimer of dimers complexes with amine bridges 3,1-[Rh2(NPhCOCH3)4]2•(C8H6N2) and 3,1-[Rh2(NPhCOCH3)4]2•(C10H8N2). All three complexes were crystallized and solved with R1 values less than 10%. Additional NMR studies were conducted to elucidate solid and solution phase structures and to determine the possibility of additional amine bonds forming.

X-ray Crystallography

Dirhodium(II)

Phenylacetamide

Molybdenum

Cofactor

Catalyst

Imidazole

4

4-Bipyridine

1

5-Naphthyridine

Inorganic Chemistry

Biophysical Characterization of Synthetic Imidazole and Pyrrole Containing Analogues of Netropsin and Distamycin that Target Specific DNA Sequences for the Treatment of Various Diseases

Ramos, Joseph P

11 December 2012

The development of small-molecules which target nucleic acids, more specifically the minor groove of DNA, in a sequence specific manner and control gene expression are currently being investigated as potential therapeutic compounds for the treatment of various diseases, including cancer, as well as viral and bacterial infections. The naturally occurring compounds netropsin and distamycin have been shown to demonstrate antitumor and antibacterial properties. Currently, there are synthetic efforts to create pyrrole and imidazole-containing polyamide derivatives of netropsin and distamycin that show potential as medicinal agents. Synthetic pyrrole and imidazole-containing polyamides are potentially useful for targeting and modulating the expression of genes, including those associated with cancer cell growth. The key challenges that must be overcome to realize this goal of using synthetic polyamides in the treatment of disease are the development of polyamides with low molar mass so the molecules can readily diffuse into cells and concentrate in the nucleus. In addition, the molecules must have appreciable water solubility, bind DNA sequence specifically, and with high affinity. As part of a systematic study within the authors’ laboratory, our goal is to develop polyamides which can be synthesized readily yet possess excellent sequence specificity, stronger binding affinity, high solubility in biological media and enhanced cell penetration and nuclear localization properties. There is a need to develop a library of modified polyamides which target DNA and exhibit improved biological properties. The present study is a systematic examination of the binding properties of various modified synthetic polyamide compounds. The synthetic polyamide derivatives presented have more potential as therapeutic candidates over other synthetic polyamides because of their increased water solubility, smaller molecular weights, and molecular design, thus, allowing them to penetrate into cells and localize in the nucleus.

DNA

minor groove

polyamides

netropsin

distamycin

imidazole

pyrrole

sequence specificity

gene control

surface plasmon resonance

isothermal titration calorimetry

Clathratbildner vom Bis-1,3-azol-Typ

Felsmann, Marika

13 April 2010

Gegenstand dieser Arbeit ist die Synthese und Charakterisierung von Bis-1,3-azol-Derivaten insbesondere im Hinblick auf ihre potentielle Einsatzfähigkeit als chemisches Sensormaterial. Nach bereits bekannten Methoden gelang es, zehn neue Bisoxazol-Derivate sowie zehn neue Dicarbonsäurediester herzustellen. Weiterhin wurden 13 neue Bisimidazol- und vier neue Lophin-Derivate synthetisiert. Die erhaltenen Röntgeneinkristallstrukturanalysen zeigen, dass vor allem lineare Bisimidazol- und Bisoxazol-Derivate gute Eigenschaften als Clathratbildner aufweisen. Die Bisoxazol-Derivate mit Pyridin als Spacerelement eignen sich vorwiegend zur Komplexierung von Nickel(II)-, Kupfer(II)- und Kobalt(II)-ionen. Aus den fluoreszenzspektroskopischen Untersuchungen geht hervor, dass verschiedene Analytdämpfe unterschiedliche Auswirkungen auf die Festkörperfluoreszenz ausüben. Somit erscheint der Einsatz von Derivaten dieser Verbindungsklasse in chemischen Fluoreszenzsensoren erfolgversprechend.

Oxazolderivate

Imidazolderivate

Organische Synthese

Fluoreszenz

Clathrate

oxazole derivatives

imidazole derivatives

organic syntheses

fluorescence

clathrates

ddc:540

rvk:VK 5070

rvk:VG 5070

Development and evaluation of an imidazole-modified chitosan for nucleic acid and contrast agent delivery

Ghosn, Bilal

13 June 2011

Over the past several decades, gene therapy technologies have been developed for a diverse number of applications ranging from DNA-based vaccines to gene silencing with RNAi. While all are powerful tools, a common limitation for these technologies is the need for effective and safe delivery to target sites within the body. Such delivery vectors are necessary for retention of bioactivity and stability, while also providing a method of cellular and tissue uptake and distribution, which may require endosomal escape. Although, viral and lipid-based technologies have shown promise as nucleic acid delivery vectors, both have inherent issues such as cytoxicity, oncogenicity, and immunogenicity. Thus, the development of polymer-based non-viral vectors has been an area of great focus over the past decade. While many polymeric vectors have been developed for plasmid DNA (pDNA) delivery, very few have shown effective delivery of short interfering RNA (siRNA), a powerful tool for gene silencing via the RNA interference mechanism. Furthermore, very few prospective delivery vectors have shown versatility for the administration of siRNA through multiple routes of administration. The overall goal of this research was to develop a biocompatible non-viral delivery system for the delivery of plasmid DNA, siRNA, and contrast agents through the modification of the natural biopolymer chitosan. We have synthesized an imidazole modified chitosan (chitosan-IAA) by conjugation of imidazole acetic acid to chitosan. Extensive evaluation and characterization of the modified polymer demonstrates enhanced solubility and buffering capacity within the physiological and endosomal pHs, thus providing enhanced endosomal escape by exploiting the "proton sponge" effect. We have demonstrated effective in vitro gene expression and gene silencing with chitosan-IAA mediated delivery of pDNA and siRNA, respectively. Furthermore, we have demonstrated in vivo gene silencing by delivery of siRNA through both intranasal and intravenous routes of delivery with chitosan-IAA/siRNA nanocomplexes. We have also demonstrated delivery of contrast agents up to 45 nm in size through mucosal tissue following treatment with chitosan and no contrast agent modification in both human and animal tissue. In conclusion, we have successfully developed a versatile and highly effective delivery vector for both nucleic acids and contrast agents. / text

Delivery systems

Contrast agent delivery

Plasmid DNA

siRNA

Chitosan

Chitosan-IAA

Imidazole modified chitosan

Nucleic acid

Gene silencing

Gene expression

Ligands hybrides : synthèse et chimie de coordination

Massard, Alexandre

24 November 2011

Ce manuscrit traite de la synthèse de ligands hybrides et de leur chimie de coordination. La première partie est consacrée aux ligands Cp-imidazole, Cp-imidazolium et Cp-phosphine. Plusieurs voies de synthèse ont été développées pour accéder à ces ligands mixtes. Leur chimie de coordination est également étudiée avec le titane. Dans la seconde, une technique développée au laboratoire pour synthétiser des phosphine-oléfines a été appliquée pour obtenir un ligand phosphine-diène, possédant trois sites de coordination potentiels. Avec différents métaux de transitions, nous avons étudié les modes de coordination de ce ligand hybride. Certains complexes formés ont également été testés en catalyse. Dans la troisième partie a été étudiée la chimie de coordination de bisaminophosphoniums vis-à-vis du titane. Ces ligands ont pu être coordinés à différents états de déprotonation, conduisant à des complexes cationiques ou neutres.

[CHIM:OTHE] Chemical Sciences/Other

Ligand hybride

Chimie de coordination

Spirane

Imidazole

Titane

Phosphine-oléfine

Catalyse

Couplage d'Ullmann

Bisaminophosphonium

Bisiminophosphorane

Phosphasalen