Your search keyword '"imidazolium salts"' showing total 518 results

251. Chiral Imidazolium Prolinate Salts as Efficient Synzymatic Organocatalysts for the Asymmetric Aldol Reaction.

Author

Porcar, Raúl, García-Verdugo, Eduardo, Altava, Belén, Burguete, Maria Isabel, and Luis, Santiago V.

Subjects

*ALDOLS, *ISOMERS, *ENANTIOMERS, *SALTS, *CHIRALITY, *ORGANOCATALYSIS, *IONIC liquids, *CATALYSTS

Abstract

Chiral imidazolium l-prolinate salts, providing a complex network of supramolecular interaction in a chiral environment, have been studied as synzymatic catalytic systems. They are demonstrated to be green and efficient chiral organocatalysts for direct asymmetric aldol reactions at room temperature. The corresponding aldol products were obtained with moderate to good enantioselectivities. The influence of the presence of chirality in both the imidazolium cation and the prolinate anion on the transfer of chirality from the organocatalyst to the aldol product has been studied. Moreover, interesting match/mismatch situations have been observed regarding configuration of chirality of the two components through the analysis of results for organocatalysts derived from both enantiomers of prolinate (R/S) and the trans/cis isomers for the chiral fragment of the cation. This is associated with differences in the corresponding reaction rates but also to the different tendencies for the formation of aggregates, as evidenced by nonlinear effects studies (NLE). Excellent activities, selectivities, and enantioselectivities could be achieved by an appropriate selection of the structural elements at the cation and anion. [ABSTRACT FROM AUTHOR]

Published

2021

252. Correlation of Aqueous Solubility and Anti-Cancer Activity of Novel Triazolium and Imidazolium Salts

Author

Bies, Jared J. and Bies, Jared J.

Abstract

Novel triazolium, imidazolium, and benzimidazolium salts are known to possess anti-cancer properties and have potential as cancer therapeutics. This thesis describes the aqueous solubility and the differential activity of N,AT-bis-substituted-l,2,4-triazolium bromide salts and N/N'-bis(naphthylmethyl)imidazolium bromide salts against MDA-MB-468 breast cancer cells and PC-3 prostate carcinomas. Using a microscale technique, the partition coefficient (log P) of each salt was determined. The log P value was explored to determine the bioavailability of each derivative.

Published

2018

253. Direct synthesis of silver nanoparticles in ionic liquid

Author

Corrêa, Cíntia M., Bizeto, Marcos A., and Camilo, Fernanda F.

Published

2016

254. Chiral Ionic Liquids: Structural Diversity, Properties and Applications in Selected Separation Techniques

Author

Małgorzata Tatarczak-Michalewska, Jolanta Flieger, and Joanna Feder-Kubis

Subjects

Chemical process, Materials science, Drug Industry, ammonium salts, Ionic Liquids, Review, imidazolium salts, Chemical Fractionation, 010402 general chemistry, 01 natural sciences, Catalysis, Ion, lcsh:Chemistry, Inorganic Chemistry, chemistry.chemical_compound, Countercurrent chromatography, tunable physicochemical properties, Food Industry, Physical and Theoretical Chemistry, lcsh:QH301-705.5, Molecular Biology, Spectroscopy, Aqueous solution, 010401 analytical chemistry, Organic Chemistry, Extraction (chemistry), enantioseparation, Stereoisomerism, General Medicine, Combinatorial chemistry, chiral ionic liquids, 0104 chemical sciences, Computer Science Applications, lcsh:Biology (General), lcsh:QD1-999, chemistry, Reagent, Ionic liquid, extraction, Solvents, chromatography, Anisotropy, Enantiomer

Abstract

Ionic liquids (ILs) are chemical compounds composed of ions with melting points below 100 °C exhibiting a design feature. ILs are commonly used as the so-called green solvents, reagents or highly efficient catalysts in varied chemical processes. The huge application potential of ionic liquids (IL) justifies the growing interest in these compounds. In the last decade, increasing attention has been devoted to the development of new methods in the synthesis of stable chiral ionic liquids (CILs) and their application in various separation techniques. The beginnings of the successful use of CILs to separate enantiomers date back to the 1990 s. Most chiral ILs are based on chiral cations or chiral anions. There is also a limited number of CILs possessing both a chiral cation and a chiral anion. Due to the high molecular diversity of both ions, of which at least one has a chiral center, we have the possibility to design a large variety of optically active structures, thus expanding the range of CIL applications. Research utilizing chiral ionic liquids only recently has become more popular. However, it is the area that still has great potential for future development. This review aimed to describe the diversity of structures, properties and examples of applications of chiral ionic liquids as new chiral solid materials and chiral components of the anisotropic environment, providing chiral recognition of enantiomeric analytes, which is useful in liquid chromatography, countercurrent chromatography and other various CIL-based extraction techniques including aqueous biphasic (ABS) extraction systems, solid–liquid two-phase systems, liquid–liquid extraction systems with hydrophilic CILs, liquid–liquid extraction systems with hydrophobic CILs, solid-phase extraction and induced-precipitation techniques developed in the recent years. The growing demand for pure enantiomers in the pharmaceutical and food industries sparks further development in the field of extraction and separation systems modified with CILs highlighting them as affordable and environmentally friendly both chiral selectors and solvents.

Published

2020

255. Antimicrobial Imidazolium Ionic Liquids for the Development of Minimal Invasive Calcium Phosphate-Based Bionanocomposites

Author

Stella Pastore, Maria Grazia Raucci, Cinzia Giannini, Alessandra Soriente, Larissa Brentano Capeletti, Henri Stephan Schrekker, Luigi Ambrosio, Ines Fasolino, and Morgana B. Dessuy

Subjects

0301 basic medicine, Materials science, Regeneration (biology), sol-gel technology, Biofilm, hydroxyapatite, chemistry.chemical_element, 02 engineering and technology, imidazolium salts, Calcium, 021001 nanoscience & nanotechnology, Antimicrobial, In vitro, 03 medical and health sciences, 030104 developmental biology, bone regeneration, chemistry, In vivo, in vitro inflammation, Biophysics, General Materials Science, Implant, 0210 nano-technology, Bone regeneration

Abstract

Biofilm formation is one of the main obstacles that occur during in vivo implantation, which compromises the implant functionality and patients' health. This is the inspiration for the development of novel implant materials that contain broad-spectrum antimicrobial activity, including antibacterial and antifungal, and enable the local release of antimicrobial agents. Here, multifunctional calcium phosphate-ionic liquid (IL) materials, possessing antimicrobial and repair/regeneration features plus injectability, are proposed as implants in minimally invasive surgery. This approach was based on the loading of 1-alkyl-3-alkylimidazolium chloride ionic liquids (ILs) (C nMImCl ( n = 4, 10, 16) and (C10)2MImCl) during the in situ sol-gel synthesis of calcium phosphates (CaP) and study of their effects on CaP crystallization and biological properties. Physical, morphological, and biological investigations were performed to evaluate the bionanocomposites' properties. The IL N-alkyl chain length influenced the crystallization of CaP and, consequently, the biological properties, which afforded bionanocomposites (when loaded with C16MImCl or (C10)2MImCl) that, (i) inhibit both in vitro bacterial and fungal growth; (ii) reduce the in vitro inflammatory response; (iii) induce osteogenic differentiation in the basal medium of human mesenchymal stem cells; and (iv) are injectable. This will enable the design of multifunctional injectable implants with antimicrobial, anti-inflammatory, and regenerative properties to be used in minimally invasive surgery of bone and maxillofacial defects.

Published

2018

256. From molecules to materials : Engineering new ionic liquid crystals through halogen bonding

Author

Giancarlo Terraneo, Pierangelo Metrangolo, Giuseppe Resnati, Duncan W. Bruce, and Gabriella Cavallo

Subjects

0301 basic medicine, Genetics and Molecular Biology (all), Materials science, Immunology and Microbiology (all), General Chemical Engineering, Supramolecular chemistry, Biochemistry, General Biochemistry, Genetics and Molecular Biology, 03 medical and health sciences, chemistry.chemical_compound, Issue 133, Halogens, Liquid crystal, Molecule, Chemical Engineering (all), Ions, Halogen bond, Neuroscience (all), General Immunology and Microbiology, Mesogen, General Neuroscience, Liquid crystals, Self-assembly, Retraction, Imidazolium salts, Ionic liquids, Crystallography, 030104 developmental biology, chemistry, Ionic liquid, Halogen, Fluorophobic effect, Halogen bonding, Haloperfluorocarbons, Liquid Crystals, Biochemistry, Genetics and Molecular Biology (all)

Abstract

Herein, we demonstrate that a bottom-up approach, based on halogen bonding (XB), can be successfully applied for the design of a new type of ionic liquid crystals (ILCs). Taking advantages of the high specificity of XB for haloperfluorocarbons and the ability of anions to act as XB-acceptors, we obtained supramolecular complexes based on 1-alkyl-3-methylimidazolium iodides and iodoperfluorocarbons, overcoming the well-known immiscibility between hydrocarbons (HCs) and perfluorocarbons (PFCs). The high directionality of the XB combined with the fluorophobic effect, allowed us to obtain enantiotropic liquid crystals where a rigid, non-aromatic, XB supramolecular anion acts as mesogenic core. X-ray structure analysis of the complex between 1-ethyl-3-methylimidazolium iodide and iodoperfluorooctane showed the presence of a layered structure, which is a manifestation of the well-known tendency to segregation of perfluoroalkyl chains. This is consistent with the observation of smectic mesophases. Moreover, all the reported complexes melt below 100 °C, and most are mesomorphic even at room temperature, despite that the starting materials were non-mesomorphic in nature. The supramolecular strategy reported here provides new design principles for mesogen design allowing a totally new class of functional materials.

Published

2018

257. Perturbation de la membrane cellulaire par des composés cationiques : transport transmembranaire contrôlé et applications biologiques

Author

Gravel, Julien and Schmitzer, Andreea-Ruxandra

Subjects

Cyclodextrins, Auto-assemblage, Self-assembly, Membranes cellulaires, Imidazolium salts, Cell membranes, Transmembrane ion transport, Phospholipides, Chimie supramoléculaire, Cyclodextrines, Transport ionique transmembranaire, Supramolecular chemistry, Phospholipids, Sels d’imidazolium

Abstract

Les sels contenant des cations organiques sont une classe importante de composés cliniquement utilisés. Ils possèdent de nombreuses propriétés qui sont utilisées pour des applications biologiques, dont, entre autres, la possibilité de perturber les membranes cellulaires. Dans cette thèse, nous nous intéressons particulièrement au débalancement de l’homéostasie induit par l’insertion de certains sels d’imidazolium dans la membrane phospholipidique. La perturbation membranaire qui en résulte ouvre la porte au développement de certaines applications potentielles, telles que le traitement de maladies provenant des dysfonctions du transport ionique transmembranaire, ou bien comme stratégie émergente pour attaquer efficacement des microorganismes indésirables, comme les bactéries multirésistantes, fléau des temps modernes. Pour ce faire, nous avons démontré le transport transmembranaire d’anions effectué par une nouvelle classe de transporteurs mobiles organiques : des sels d’imidazolium fonctionnalisés par des groupements adamantyles. Le contrôle du processus de transport peut être réalisé par l’ajout de cyclodextrines, qui conduit à la formation d’une entité supramoléculaire incapable de perturber la membrane phospholipidique. L’ajout d’un composé invité compétitif permet de disloquer le transporteur du complexe supramoléculaire et de restaurer l’activité de transport transmembranaire. Ce système a ensuite été étudié pour une application potentielle comme stratégie d’administration de médicament contrôlable. La toxicité des sels d’imidazolium contre des bactéries Bacillus thuringiensis a été démontrée comme étant réversible, selon le même modèle que le transport transmembranaire. Nous présentons également un essai spectroscopique simple qui nous permet de quantifier la perméabilisation des membranes des bactéries Escherichia coli. Cette nouvelle approche permet le suivi de la perméabilisation de la membrane bactérienne, induite par le chlorure de benzalkonium ou par d’autres composés cationiques., Salts containing organic cations are an important class of clinically used compounds. They possess numerous biological applications resulting from their capacity to disrupt cellular membranes. In this thesis, we are particularly interested in the disruption of homeostasis disruption induced by the insertion of imidazolium salts in phospholipid membranes. The resulting membrane disruption has potential applications, such as the treatment of diseases arising from the dysfunction of ion transport, or in an emerging strategy to target effectively the membranes of unwanted microorganisms, such as multidrug resistant bacteria, a scourge of modern times. We present the transmembrane transport of anions by a new class of organic mobile transporters: adamantyl-functionnalized imidazolium salts. The transport process can be controlled by the addition of cyclodextrins that form supramolecular entities that are unable to disrupt the phospholipid membrane. The transmembrane transport properties of the imidazolium salts can be completely restored by the addition of a competitive guest. This system had shown a potential application as a controllable drug delivery strategy, where the toxicity of imidazolium salts toward Bacillus thuringiensis bacteria has been demonstrated to be reversible, by modulating transmembrane ion transport. We also present a simple spectroscopic assay that we developed to quantify permeabilization of the bacterial envelope of Escherichia coli. The novel approach can be used to monitor the permeabilization of the bacterial membrane that is induced by benzalkonium chloride or other cationic compounds.

Published

2018

258. 1-(4-Alkyloxybenzyl)-3-methyl-1H-imidazol-3-ium organic backbone: A versatile smectogenic moiety

Author

William Dobbs, Laurent Douce, and Benoît Heinrich

Subjects

crystal liquid, imidazolium salts, ionic liquid, supramolecular arrangement, Science, Organic chemistry, QD241-441

Abstract

The merger of ionic liquid and liquid crystal fields, obtained by using the imidazolium ring as a common element, has allowed us to tailor a new set of materials which associate specific functionalities. These functionalities are consequences of the original properties of the component, ionic liquids, liquid crystals and their association in a single compound. The study of this interesting association led us to elaborate environment-flexible cationic architectures from which mesomorphic properties emerge. Moreover, we have also explored the influence of different anions on the mesomorphic properties.

Published

2009

259. An investigation of the catalytic potential of potassium cyanide and imidazolium salts for ultrasound-assisted synthesis of benzoin derivatives

Author

Masoume Ahmadi, Susan Seyyedi, Zohre Zarnegar, and Javad Safari

Subjects

Benzoin condensation, Catalysts, Chemistry(all), Potassium cyanide, General Chemistry, Ultrasound assisted, Cyanide ion, Imidazolium salts, Catalysis, lcsh:Chemistry, Benzaldehyde, chemistry.chemical_compound, Ultrasonic, lcsh:QD1-999, chemistry, Benzoin, Yield (chemistry), Organic chemistry, GeneralLiterature_REFERENCE(e.g.,dictionaries,encyclopedias,glossaries), ComputingMilieux_MISCELLANEOUS

Abstract

A rapid, highly efficient and mild green synthesis of benzoin was performed using substituted benzaldehyde catalyzed by KCN and imidazolium salts in EtOH/H2O under ultrasonic activation. The products were obtained in good yields within short reaction times with N,N′-dialkylimidazolium salts, which were found to be more effective pre-catalysts at room temperature for benzoin condensation in comparison to corresponding cyanide ion in heating method. This simple method affords benzoin derivatives at room temperature in short reaction times with high yield and purity.

Published

2015

260. Insights into the effect of the spacer on the properties of imidazolium based AIE luminogens.

Author

Rizzo, Carla, Marullo, Salvatore, Feroci, Marta, Accurso, Vincenza, and D'Anna, Francesca

Subjects

*IMIDAZOLES, *MOLECULAR electronics, *SUPRAMOLECULAR chemistry, *DIFFERENTIAL scanning calorimetry, *IONIC liquids, *CYCLIC voltammetry

Abstract

With the aim to obtain organic salts with potential applications in high performance molecular electronics, we combined properties of π-conjugated spacers, like 1,4-diethynylbenzene and 1,6-diethynylpyrene, with the ones of both imidazole and imidazolium units. Physico-chemical properties of obtained fluorescent organic salts were investigated performing thermo-gravimetric analysis (TGA), differential scanning calorimetry (DSC) and cyclic voltammetry measurements (CV). Photophysical behavior of the salts was analyzed in conventional solvents and ionic liquids, by UV–vis and fluorescence investigation. Solution phase aggregation study revealed that these salts self-assemble in conventional solvents and ionic liquids, leading to aggregation induced emission processes. Notably, emission was maintained also in the solid state, with higher or lower intensity compared with the solution, depending on which spacer is present. This latter, also impacts on the morphology of the aggregates, allowing fine tuning the properties of the supramolecular materials formed. Image 1 • We synthesized imidazolium salts bearing 1,4-diethynylbenzene- and 1,6-diethynylpyren spacers. • Both salts show AIE in solution and are emissive also in the solid state. • The different spacer affects, among others, aggregate morphology and structure and emission properties in the solid state. [ABSTRACT FROM AUTHOR]

Published

2021

261. Tetrakis(pentafluoroethyl)gallate, [Ga(C 2 F 5 ) 4 ] - , Ionic Liquids.

Author

Biller H, Lerch S, Tölke K, Stammler HG, Hoge B, and Strassner T

Abstract

We synthesized new imidazolium-based tunable aryl alkyl ionic liquids (TAAILs) with the weakly coordinating tetrakis(pentafluoroethyl)gallate anion, [Ga(C 2 F 5 ) 4 ] - . Phenyl and phenyl derivatives (2-Me, 4-OMe, 2,4-F) were combined with varying alkyl chain lengths at the imidazolium core leading to TAAILs, which were investigated with regard to their viscosity, conductivity, and electrochemical window and compared to EMIM and BMIM standard cations. Remarkable low viscosities of 29 cP at 25 °C for [BMIM][Ga(C 2 F 5 ) 4 ] were achieved. However, the EMIM and BMIM gallates show electrochemical instability, releasing pentafluoroethane at a voltage of 1.5 V. The 2-Me-substituted gallate-TAAILs slowly decompose over several weeks, whereas all other gallate-TAAILs showed no decomposition at all. With electrochemical windows of up to 5.15 V and low viscosities in a range of 66-162 cP, the gallate-TAAILs are promising candidates as electrolytes in electrochemical applications., (© 2021 The Authors. Chemistry - A European Journal published by Wiley-VCH GmbH.)

Published

2021

262. Strukturelle Grundlagen, Synthesen und Anwendungen ionischer Flüssigkeiten

Author

Bentivoglio, Gino and Bentivoglio, Gino

Abstract

Zunächst wurden strukturelle Grundlagen einiger bekannter molekularer Bausteine von Ionischen Flüssigkeiten untersucht. Dazu zählen 1-Butyl-3-methylimidazolium-Kationen (bzw. deren besser kristallisierende 2-Methyl-Analoga), 1-Alkyl-1-methylpyrrolidinium-Kationen und Bis(trifluormethansulfonyl)amid-Anionen. Als wichtigste Methode fand die Einkristall-Röntgen-Diffraktometrie Anwendung, mit deren Hilfe die Strukturen auch niedrig schmelzender Festkörper aufgeklärt werden konnte. Auf diese Weise konnten Konformationen der einzelnen Ionen wie auch Wechselwirkungen zwischen den Ionen befriedigend geklärt werden und neue Einblicke in die Strukturen Ionischer Flüssigkeiten gewonnen werden. Synthesen neuartiger N,N'-Di(alkyloxy)imidazoliumsalze durch Alkylierung von 1-Hydroxyimidazol-3-oxiden mit Dialkylsulfaten wurden entwickelt. Funktionalisierung in Position 2 des Imidazolium-systems wurde durch Bromierung erreicht. ^Die 2-Bromderivate wurden in Azide und Metallkomplexe N-heterozyklischer Carbene überführt. Analog wurden 1-Alkyloxy-3-alkylimidazoliumsalze durch schrittweise Alkylierung von 1-Hydroxyimidazol hergestellt. Bemerkenswerte Ergebnisse wie selektive Mono-demethoxylierung von 1,3-Dimethoxyimidazoliumsalzen oder die Bildung eines Semiperhydrats von 1,2-Dimethylimidazol stellen Höhepunkte in der Imidazol-Chemie dar. Zahlreiche Kristallstrukturen wurden im Zuge dieser Arbeiten bestimmt und veröffentlicht. Ein Schwerpunkt der eher praxisorientierten Forschung bestand in der Anwendung Ionischer Flüssigkeiten als Lösungsmittel für Cellulose. Das Ausmaß des Abbaus der Cellulose-Struktur und die Eigenschaften der durch Spinnen gewonnenen Cellulose-Fasern waren von der Art der verwendeten Ionischen Flüssigkeit abhängig. ^Ein weiterer Schwerpunkt war die Verwendung Ionischer Flüssigkeiten in der Spurenanalytik schwerflüchtiger Lösungsmittel oder anderer Verunreinigungen in pharmazeutischen Produkten mittels der Headspace-Gas-Chromatographie. Die Lösung dieser praktischen, Structural groundwork of some known molecular building blocks of Ionic Liquids was investigated. Among these belong 1-butyl-3-methylimidazolium cations (more specifically, their well-crystallizing 2-methyl analogs), 1-alkyl-1-methylpyrrolidinium cations and bis(trifluormethansulfonyl)amide anions. Single-crystal X-ray diffraction was found to be the most important method capable of elucidating the structures even of low-melting solids. Thus, conformations of single ions as well as interactions between the ions could be satisfactorily explained, and new insights into the structural features of Ionic Liquids could be gained. Syntheses of novel N,N'-di(alkyloxy)imidazolium salts by alkylation of 1-hydroxyimidazole-3-oxides using dialkyl sulfates were developed. Functionalization in position 2 of the imidazolium system was accomplished by bromination. The 2-bromo compounds were transformed into azides and metal complexes of N-heterocyclic carbenes. ^Along the same lines, 1-alkyloxy-3-alkylimidazolium salts were prepared by stepwise alkylation of 1-hydroxyimidazole. Remarkable results such as selective mono-demethoxylation of 1,3-dimethoxyimidazolium salts or the formation of a semiperhydrate of 1,2-dimethylimidazole pose highlights in imidazole chemistry. Numerous crystal structures were determined and published in the course of this work. One emphasis of the more practice-oriented research was placed on the application of Ionic Liquids as solvents for cellulose. The extent of cellulose degradation and the properties of the fibers obtained by spinning were found to be dependent on the type of Ionic Liquid used. Another focus was set on the use of Ionic Liquids for the analytical determination of traces of non-volatile residual solvents or other impurities in pharmaceutical products by headspace-gas-chromatography. ^These practical problems could be solved convincingly, with limits of detection and quantification in the low ppm range. At last, Ionic Liquids could also be, vorgelegt von Mag. rer. nat. Gino Bentivoglio, Kurzfassung in englischer und deutscher Sprache, Abweichender Titel laut Übersetzung des Verfassers, Kumulative Dissertation aus siebzehn Artikeln, Universität Innsbruck, Dissertation, 2017, OeBB, (VLID)1948943

Published

2017

263. Développement de nouveaux sels d’imidazolium : application du milieu cristal liquide ionique pour la réaction de Diels-Alder Intramoléculaire et à la préparation des nanoparticules d’Or Anisotropes

Author

Do, Tien Dat and Schmitzer, Andreea-Ruxandra

Subjects

Sels d’imidazolium tricationiques, Liquid crystals, Sels d’imidazolium dicationiques, Dicationic imidazolium salts, Intramolecular Diels-Alder reaction, Ionic liquids, Imidazolium salts, Tricationic imidazolium salts, Liquides ioniques, Cristaux liquides, Anisotropic gold nanoparticles, Nanoparticules d’or anisotropes, Cristaux liquides ioniques, Ionic liquid crystals, Réaction de Diels-Alder intramoleculaire, Sels d’imidazolium

Abstract

Les liquides ioniques à base de sels d’imidazolium sont une classe très importante de composés, compatibles avec de nombreuses réactions organiques et largement employés dans la synthèse organique en tant que solvants, catalyseurs ou ligands. En particulier, les liquides ioniques peuvent être récupérés à la fin de la réaction. Les sels d’imidazolium présentent également des propriétés d’organisation intéressantes, aussi bien en phase solide, liquide et en solution. Cependant, les liquides ioniques traditionnels présentent certains désavantages lorsqu’utilisés comme solvant dans des réactions intramoléculaires, surtout dans le cas où le réactif est apolaire. La faible solubilité de ce dernier dans le milieu ionique conduit à la formation des produits intermoléculaires. Les travaux présentés dans cette thèse portent sur l’utilisation des propriétés d’organisation des sels d’imidazolium, tout d’abord pour le développement des nouveaux cristaux liquides ioniques, comme le milieu réactionnel pour la réaction de Diels-Alder intramoléculaire, et ensuite pour la préparation des nanparticules d’or anisotropes. Dans un premier temps, le développement des sels d’imidazolium dicationiques portant des chaînes alkyles flexibles et un cœur rigide, avec des unités imidazolium attachées directement à un noyau naphthalène est rapporté. Par la suite, leurs propriétés thermiques et mésomorphes ont été étudiées. Ces sels sont stables thermiquement et forment une phase cristal liquide de type Smectique T, sur une plage de températures appropriées pour des réactions organiques. En utilisant le milieu cristal liquide comme milieu réactionnel dans la réaction de Diels-Alder, le réactif a été piégé dans la structure organisée de cette phase, ce qui a empêché l’interaction entre deux molecules de réactifs, limitant la formation du produit intermoléculaire. D’ailleurs, le milieu cristal liquide ionique a pu être récupéré et reutilisé à la fin de la réaction. Dans un deuxième temps, l’influence de la structure de la mésophase sur la réaction de Diels-Alder intramoléculaire a été étudiée. Des sels d’imidazolium tricationiques ayant une symétrie C3 ont ete développés dans le but d’obtenir des phases colonnaires. Ces sels possèdent un cœur rigide formé par trois cations imidazolium liés à un noyau benzène et des chaînes alkyles flexibles. Des études thermiques et mésomorphes sur ces composés ont été ensuite réalisées. Ces composés possèdent une haute stabilité thermique et forment une phase colonnaire rectangulaire, stable sur une large gamme de températures. L’influence de cette phase sur la réaction de Diels-Alder a ete étudiée. L’utilisation de la phase colonnaire favorise également la réaction intramoléculaire. En particulier, elle s’est avèree plus efficace que la phase Smectique T, probablement dû à sa structure plus organisée, indiquée par une enthalpie de tranisition cristal liquide – liquide isotrope plus élevée. Dans un dernier temps, nous nous sommes intéressés à l’utilisation des propriétés d’organisation des sels d’imidazolium dans la préparation des nanoparticules d’or anisotropes. Dans cette optique, différents mélanges binaires, composés d’un sel d’imidazolium et le diméthylformamide (DMF), ont été préparés et utilisés comme solvants et stabilisants, dans la synthèse des nanoparticules d’or à température ambiante. L’utilisation de ces milieux nous a permis d’obtenir des particules d’or avec différentes géométries. La forme des nanoparticules d’or obtenus dépend de la structure des sels d’imidazolium utilisés et de la concentration du mélange binaire, à la fois., Ionic liquids based on imidazolium salts are an important class of compounds, possessing a very good compatibility with various organic reactions, and are widely used as solvents, catalysts and ligands in organic synthesis. Moreover, imidazolium salts possess interesting supramolecular organization in the solid, liquid and solution state. However, ionic liquids present some disadvantages when used as solvents for intramolecular reactions, especially in the case of apolar reactants. The low solubility of ionic compounds in ionic media promote the formation of intermolecular products. The main goal of the research presented in this thesis is to explore the supramolecular organization of imidazolium salts, first in the development of ionic liquid crystals as reaction media for intramolecular Diels-Alder reactions and secondly for the preparation of anisotropic gold nanoparticles. First, the development of dicationic imidazolium salts having a rigid core and flexible alkyl chains is reported. The rigid core is forned by direct attachment of two imidazoliums on a naphthalene moiety. Their thermal and mesomorphic analyses were then carried out. These dicationic salts show a high thermal stability and form a very ordered smectic T phase, over a wide range of temperatures. This mesophase was subsequently used as reaction medium for intramolecular Diels-Alder reactions. In this phase, reactants are trapped in the highly organized structure of the liquid crystal medium, limiting the formation of intermolecular products. Moreover, the ionic liquid crystal, was recoved at the end of reaction by simple extraction. Secondly, the influence of the mesophase’s structure on the Diels-Alder reaction was explored. Tricationic imidazolium satls having a C3 symmetry were developed in order to obtain columnar phases. The rigid core of these salts is composed of three imidazolium units directly attached to the benzene ring. Their thermal stabilities and mesomorphic properties were investigated. The columnar phase formed by these salts was then used as reaction media for Diels-Alder reactions, and it proved to be more efficient than the previously used smectic T phase, due to their more organized structure, as indicated by the higher enthalpy value of the liquid crystal - isotropic liquid transition. iv Finally, the supramolecular organization in solution of two imidazolium salts was explored with the aim to prepare anisotropic gold nanoparticles. Different binary mixtures composed of an imidazolium salt and dimethylformamide (DMF) were prepared and used both as solvent and capping agent in the synthesis of gold nanoparticles, at room temperature. The use of these binary mixture allowed us to synthesize nanoparticles with various geometries. The form of the gold nanoparticles prepared in these binary mixtures was influenced by both, the structre and the concentration of the imidazolium salt used.

Published

2017

264. Cimento de ionômero de vidro modificado com sal imidazólico : biomaterial funcionalizado com propriedades antibiofilme fúngico

Author

Ehrhardt, Alexandre, Fuentefria, Alexandre Meneghello, and Donassollo, Tiago Aurélio

Subjects

Imidazóis, Cimentos de ionômeros de vidro, Antifungals, Biofilm, Materiais biocompatíveis, Glass ionomer cements, Biocompatible materials, Antifúngicos, Biofilmes, Imidazolium salts, Ionic liquids

Abstract

Os cimentos de ionômero de vidro são biomateriais constituídos de polímeros ácidos, vidro básico (ionizável) e água, sendo usados amplamente no campo odontológico, como materiais restauradores ou ainda como cimentadores de bandas ortodônticas. Estes compostos podem ser suscetíveis a formação de biofilmes por espécies de Candida na sua superfície em função da rugosidade associada a colonização fúngica do meio bucal. Pesquisas na área de desenvolvimento de biomateriais funcionais tem buscado desenvolver compostos de alta eficácia e baixa toxicidade que sejam capazes de inibir a formação de biofilmes sobre superfícies biológicas. Considerando a busca por novos biomateriais, foi desenvolvido um estudo ex vivo com o objetivo de modificar a estrutura de um cimento de ionômero de vidro comercialmente disponível (Ketac® Cem Easymix 3M) através da inserção do sal imidazólico cloreto de 1-nhexadecil- 3-metilimidazol comparado ao cloreto de cetilpiridínio para compor um novo composto com atividade antibiofilme. O sal imidazólico e o cloreto de cetilpiridínio foram acrescentados diretamente ao pó do ionômero de vidro na proporção de 10 ppm p/p. A partir desta adição inicial, foi realizada a reação de polimerização do ionômero, obtendo corpos de prova (CP) medindo 5 mm Ø × 3 mm h, os quais foram divididos em 03 grupos: CP1, constituído do ionômero na formulação original (controle de crescimento de biofilme); CP2, constituído do ionômero acrescido com o cloreto de cetilpiridínio (referência) e CP3, constituído do ionômero acrescido do sal imidazólico. Foram testadas nove cepas de Candida não albicans resistentes ao antifúngicos usuais, sendo três cepas de C. glabrata (RL22, RL24 e RL25), três cepas de C. tropicalis (57A, 72A e 72P) e três cepas de C. parapsilosis (RL11, RL20 e RL32), todas depositadas no Laboratório de Micologia da UFRGS. Avaliou-se a resistência a deformação plástica pelo teste de microdureza; a atividade antibiofilme pela avaliação de inibição de crescimento na superfície dos CP por microscopia eletrônica de varredura e avaliação de hipoalerginicidade pelo teste da membrana cório-alantoide. O teste de microdureza não apresentou diferença significativa (p>0,05) entre os três grupos, com valor médio de 44.2 HV para o CP1, 43.5 HV para o CP2 e 43,1 HV para o CP3. A avaliação da superfície dos CP através da análise de microscopia eletrônica demonstrou haver inibição completa da formação do biofilme de todas as cepas testadas. O teste da membrana cório-alantoide indicou que o ionômero de vidro na sua composição original, bem como acrescido dos dois compostos testados, demonstrou ser hipoalergênico. Considerando os dados apresentados, podemos concluir que a adição do sal imidazólico na formulação do ionômero de vidro promoveu a ação antibiofilme contra cepas multirresistente sem perda nas características de microdureza e hipoalergenicidade. Glass ionomer cements are biomaterials composed of acid polymers, basic glass (ionizable) and water, being widely used in dentistry, as restorative materials or as orthodontic bands. These compounds may be susceptible to biofilm formation on their surface by Candida species because of the roughness associated with fungal colonization of the oral cavity. Research on antifungal drugs development has focused on the synthesis of new compounds, that present effective action and low toxicity that are able to inhibit the formation of biofilms on biological surfaces. Considering the demand for biomaterials with antibiofilm activity, an ex vivo study was developed with the objective of modifying the structure of a commercially available glass ionomer cement (Ketac® Cem Easymix 3M) by insertion of the imidazole salt 1-n-hexadecyl-3- methylimidazole chloride compared to the cetylpyridinium chloride to make a novel compound with antibiofilm activity. The imidazole salt and cetylpyridinium chloride were added directly to the glass ionomer powder at a ratio of 10 ppm w/w. From this initial addition, the ionomer polymerization reaction was performed, obtaining test specimens (TS) measuring 5 mm Ø × 3 mm h, divided into three groups; i) TS1, composed only of GIC (growth control reference); ii) TS2, glass ionomer and cetylpyridinium chloride added directly to the powder (drug reference); and iii) TS3, glass ionomer and imidazolium salt using the same procedure. Nine strains of nonalbicans Candida, resistant to usual antifungals, were used; three C. glabrata strains (RL22, RL24 and RL25), three C. tropicalis strains (57A, 72A and 72P) and three C. Parapsilosis strains (RL11, RL20 and RL32), all the strains are deposited in the Mycology Collection at UFRGS. The plastic deformation was evaluated by the microhardness test; the antibiofilm activity by the evaluation of inhibition of growth on the surface of the specimens by scanning electron microscopy and evaluation of hypoallerginicity by the test of the chorioallantoic membrane. The plastic deformation evaluation showed no significant difference among the three groups, with a mean value of 44.2 HV for TS1, 43.5 HV for TS2 and 43,1 HV for TS3. Evaluating the biofilm formation on TSs, all the isolates form biofilm on TS1 (reference). On the other hand, both TS2 and TS3 were able to inhibit surface biofilm growth. The allergenicity evaluation of the three TSs showed no evidence of tissue alteration, considering that the eggs’ chorioallantoic membrane remained intact. Considering the presented data, we can conclude that the addition of the imidazole salt in the glass ionomer formulation promoted the antibiofilm action against multiresistant strains without loss in the characteristics of microhardness and hypoallergenicity.

Published

2017

265. Synthesis and antimicrobial properties of camphorsulfonic acid derived imidazolium salts

Author

Marián Bukovský, Natalia Miklášová, Ferdinand Devínsky, and Roman Mikláš

Subjects

RS1-441, chemistry.chemical_compound, antimicrobial activity, Pharmacy and materia medica, Chemistry, Camphorsulfonic acid, camphorsulfonic acid, Organic chemistry, Pharmacology (medical), imidazolium salts, General Pharmacology, Toxicology and Pharmaceutics, Antimicrobial

Abstract

A group of homochiral imidazolium salts bearing hydrophobic camphor derived moiety and ester or amide functional group were synthesized and characterized. The novel imidazolium bromides were tested as antimicrobial and antifungal agents and their minimal inhibitory concentration (MIC) was evaluated and compared to clinically used benzalkonium bromide (BAB) and carbethopendecinium bromide. The MIC values of amide derivatives 2a and 2b were slightly smaller than those for BAB, indicating their good activity. None of the prepared salts was more effective than carbethopendecinium bromide. The biocidal efficacy of amide derivatives was much higher compared to the ester analogues.

Published

2014

266. An efficient and green sonochemical synthesis of some new eco-friendly functionalized ionic liquids

Author

Mouslim Messali

Subjects

Chemistry(all), General Chemical Engineering, General Chemistry, Green procedure, Room temperature ionic liquids, Environmentally friendly, Imidazolium salts, lcsh:Chemistry, chemistry.chemical_compound, lcsh:QD1-999, chemistry, Ionic liquid, Mass spectrum, Chemical Engineering(all), Organic chemistry, Solvent effects, Ultrasound irradiation

Abstract

Considerable stress to replace a lot of volatile organic compounds which were used as solvents in synthetic organic chemistry has been done for many chemical industries. A suitable solution for these problems is found by using the ionic liquids as a clean medium of working and avoiding the solvent effect. The present work describes a facile and green ultrasound-assisted procedure as an environmentally friendly alternative to traditional methods for the preparation of a series of 26 new functionalized imidazolium-based ionic liquids. Their structures were characterized by FT-IR, 1 H, 13 C, 11 B, 19 F, 31 P NMR and mass spectra.

Published

2014

267. Synthesis of glucoside-based imidazolium salts for Pd-catalyzed cross-coupling reaction in water.

Author

Zhou, Zhonggao, Xie, Qian, Zhou, Xin, Yuan, Yangyang, Pan, Yan, Lu, Dongliang, Du, Ziyi, and Xue, Jun

Subjects

*SUZUKI reaction, *NANOPARTICLES, *CATALYTIC activity, *SALTS, *SMALL molecules

Abstract

Sugar-based imidazolium salts (IMSs) represent an outstanding type of material making them eye-catching for a wide variety of applications. Herein, a series of glucoside-based IMSs (Glu-IMSs) combining glucoside and imidazolium head groups with different substituents were synthesized. The catalytic activities of these Glu-IMSs were evaluated by Pd-catalyzed Heck–Mizoroki and Suzuki–Miyaura reactions in water. Among them, the Glu-IMSs contain both –OH and NHCs coordination sites was found to be the most efficient ancillary ligand in comparison with other Glu-IMSs with just single NHCs coordination site. The HR-TEM analysis showed that the palladium nanoparticles stabilized by the Glu-IMSs with an average size of ~4.0 nm was formed in the reaction system, which may be act as an efficient real catalytic species. Under the optimized reaction conditions, a series of novel fluorine-cored organic small molecule functional materials were synthesized with favorable yields. A series of glucoside-based imidazolium salts (Glu-IMSs) combining glucoside and imidazolium head groups with different substituents were synthesized. The catalytic activities of these Glu-IMSs were evaluated in Pd-catalyzed Heck–Mizoroki (19 examples) and Suzuki–Miyaura (15 examples) reactions in water media. Glu-IMSs with –OH and NHCs two coordination sites was found to be most efficient ligand among them. HR-TEM analysis showed that in the presence of Glu-IMSs in water, palladium nanoparticles was formed with an average size of around 4.0 nm, the generation of Pd(0) nanoparticles would act as efficient real catalytic species to accelerate the cross coupling reaction in water media. Image 1 • Preparation of Glu-IMSs from commercial N-substituent imidazole. • The catalytic activities of Pd/Glu-IMSs were evaluated with Heck–Mizoroki and Suzuki–Miyaura reactions in water. • Glu-IMSs with –OH and NHCs two coordination sites was the most efficient ligand. • The Glu-IMSs stabilized Pd NPs with an average size of ~4.0 nm. • A series novel fluorine-cored OFMs were synthesized. [ABSTRACT FROM AUTHOR]

Published

2020

268. Cleft-type imidazoliums for sensing of sulfate and polyphosphate anions with AIE emission.

Author

Huang, Ling-Xi, Bai, Hai-Ying, Tao, Hui, Cheng, Gengjinsheng, and Cao, Qian-Yong

Subjects

*POLYPHOSPHATES, *ANIONS, *CAENORHABDITIS elegans, *AQUEOUS solutions, *HEPARAN sulfate

Abstract

Two novel tetraphenylethylene (TPE) appended cleft-type imidazoliums linked through 1,2-phenyl (1) or 1,2-phenylmethyl (2) spacer were designed and synthesized for anion recognition. In aqueous solution, probe 1 can recognize SO 4 2− and polyphosphate (PPi, ADP, and ATP) anions in the order of ATP > SO 4 2− ~ PPi > ADP, in which the TPE-based flurophore gives a large fluorescence enhancement for increasing the aggregation. In contrast, probe 2 with a relatively flexible linker only responds toward polyphosphate anions ATP, PPi and ADP. In addition, probe 1 showed a higher anion binding affinity than that of 2 , attributing to more rigid frame characteristics. Furthermore, probe 1 was also applied to image ATP and SO 4 2− level in living cells and C. elegans. Novel Cleft-type probes for sensing of sulfate and polyphosphate anions in aqueous solution, living cells and C. elegans have been reported. Image 1 • Two cleft-type anion probes with AIE emission were prepared. • The probes can recognize sulfate and polyphosphate anions with a fluorescence turn-on response. • One probe is used for fluorescence imaging of sulfate and polyphosphate anions in live cells and C. elegans. [ABSTRACT FROM AUTHOR]

Published

2020

269. Synthesis, Selected Transformations, and Biological Activity of Alkoxy Analogues of Lepidilines A and C.

Author

Mlostoń, Grzegorz, Celeda, Małgorzata, Poper, Wiktor, Kowalczyk, Mateusz, Gach-Janczak, Katarzyna, Janecka, Anna, and Jasiński, Marcin

Subjects

*ALKYLATING agents, *ACETIC acid, *CARBENES, *CELL lines, *SALTS, *ALKOXY compounds

Abstract

Condensation of diacetyl monooxime with formaldimines derived from alkoxyamines in glacial acetic acid at room temperature leads to corresponding 2-unsubstituted imidazole N-oxides bearing an alkoxy substituent at the N(1) atom of the imidazole ring. Subsequent O-benzylation afforded, depending on the type of alkylating agent, either symmetric or nonsymmetric alkoxyimidazolium salts considered as structural analogues of naturally occurring imidazole alkaloids, lepidilines A and C. Some of the obtained salts were tested as precursors of nucleophilic heterocyclic carbenes (NHCs), which in situ reacted with elemental sulfur to give the corresponding N-alkoxyimidazole-2-thiones. The cytotoxic activity of selected 4,5-dimethylimidazolium salts bearing either two benzyloxy or benzyloxy and 1-adamantyloxy groups at N(1) and N(3) atoms was evaluated against HL-60 and MCF-7 cell lines using the MTT (3-(4, 5-dimethylthiazol-2-yl)-2, 5-diphenyltetrazolium bromide) assay. Notably, in two cases of alkoxyimidazolium salts, no effect of the counterion exchange (Br− → PF6−) on the biological activity was observed. [ABSTRACT FROM AUTHOR]

Published

2020

270. Highly efficient imidazolium-containing oligomers for preventing MRSA biofilm and postoperative spinal infection.

Author

Li, Jiangbi, Wang, Yongjie, Che, Mingxue, Ji, Xue, Liu, Jun, Sun, Yang, Xiao, Chunsheng, Zhang, Yugen, and Zhang, Shaokun

Subjects

*OLIGOMERS, *BIOFILMS, *METHICILLIN-resistant staphylococcus aureus, *SPINAL surgery, *ENTEROCOCCAL infections, *SURGICAL site infections, *SURGICAL complications, CENTRAL nervous system infections

Abstract

• Imidazolium oligomers could inhibit the growth of bacteria related to SSIs. • Imidazolium oligomers could effectively clear MRSA biofilms in vitro. • We established a mouse spinal infection model to evaluate the effect of treatment. • Imidazolium oligomers could effectively prevent postoperative spinal infection. Surgical site infections (SSIs) after spinal surgery are one of the serious complications of spinal surgery, which can lead to failure of spinal surgery, central nervous system infection, and even threaten patients' lives. Although existing antibiotics can effectively control and treat postoperative infections in the spine, bacterial resistance continues to rise each year due to irrational use of antibiotics. Meanwhile, bacteria can easily form biofilms on the surface of the spinal instruments. The biofilm matrix can restrict the penetration of antibiotics. Nowadays, more patients are infected with drug-resistant bacteria after spinal surgery. However, current treatments and preventions for SSIs are becoming more difficult. Therefore, novel antimicrobial materials for SSIs are urgently needed. Previous studies have shown that imidazolium salts can kill bacteria quickly, and they are less likely to induce resistance. In this study, the antibacterial potency of linear main-chain imidazolium oligomers in postoperative spinal infections was evaluated by in vitro and in vivo experiments. In vitro results showed that imidazolium oligomers had broad-spectrum antibacterial effects, which can inhibit the formation of methicillin-resistant Staphylococcus aureus (MRSA) biofilms and destroy the mature biofilms. Moreover, by establishing a mouse spinal infection model, we confirmed that linear imidazolium salts had comparable in vivo efficacy as vancomycin. [ABSTRACT FROM AUTHOR]

Published

2020

271. Synthesis and biological activity of new bisbenzofuran-imidazolium salts.

Author

Wang, Xue-Quan, Ye, Ping-Ting, Bai, Meng-Jiao, Miu, Wei-Hang, Yang, Zhi-Xin, Duan, Su-Yue, Li, Tian-Tian, Li, Yan, and Yang, Xiao-Dong

Subjects

*BIOSYNTHESIS, *CELL lines, *SALT, *STRUCTURE-activity relationships, *BENZIMIDAZOLES

Abstract

A series of novel bisbenzofuran-imidazolium salts were designed and prepared. The in vitro antitumor activity of these derivatives was evaluated against a panel of human tumor cell lines (A549, HL-60, MCF-7, SMMC-7721 and SW480). Results demonstrated that 2-methyl-benzimidazole ring and substitution of the imidazolyl-3-position with a 4-methoxyphenacyl or 2-naphthylacyl substituent were important for promoting cytotoxic activity. Notably, compound 23 was found to be the most potent compound with IC 50 values of 0.64–1.47 μM against five human tumor cell lines, and exhibited higher selectivity to MCF-7 and SW-480 cell lines with IC 50 values 15.3-fold and 9.1-fold lower than DDP. [ABSTRACT FROM AUTHOR]

Published

2020

272. Chiral Ionic Liquids: Structural Diversity, Properties and Applications in Selected Separation Techniques.

Author

Flieger, Jolanta, Feder-Kubis, Joanna, and Tatarczak-Michalewska, Małgorzata

Subjects

*IONIC liquids, *EXTRACTION techniques, *COUNTERCURRENT chromatography, *MELTING points, *CHEMICAL processes, *LIQUID-liquid extraction, *CHIRAL recognition

Abstract

Ionic liquids (ILs) are chemical compounds composed of ions with melting points below 100 °C exhibiting a design feature. ILs are commonly used as the so-called green solvents, reagents or highly efficient catalysts in varied chemical processes. The huge application potential of ionic liquids (IL) justifies the growing interest in these compounds. In the last decade, increasing attention has been devoted to the development of new methods in the synthesis of stable chiral ionic liquids (CILs) and their application in various separation techniques. The beginnings of the successful use of CILs to separate enantiomers date back to the 1990 s. Most chiral ILs are based on chiral cations or chiral anions. There is also a limited number of CILs possessing both a chiral cation and a chiral anion. Due to the high molecular diversity of both ions, of which at least one has a chiral center, we have the possibility to design a large variety of optically active structures, thus expanding the range of CIL applications. Research utilizing chiral ionic liquids only recently has become more popular. However, it is the area that still has great potential for future development. This review aimed to describe the diversity of structures, properties and examples of applications of chiral ionic liquids as new chiral solid materials and chiral components of the anisotropic environment, providing chiral recognition of enantiomeric analytes, which is useful in liquid chromatography, countercurrent chromatography and other various CIL-based extraction techniques including aqueous biphasic (ABS) extraction systems, solid–liquid two-phase systems, liquid–liquid extraction systems with hydrophilic CILs, liquid–liquid extraction systems with hydrophobic CILs, solid-phase extraction and induced-precipitation techniques developed in the recent years. The growing demand for pure enantiomers in the pharmaceutical and food industries sparks further development in the field of extraction and separation systems modified with CILs highlighting them as affordable and environmentally friendly both chiral selectors and solvents. [ABSTRACT FROM AUTHOR]

Published

2020

273. Inhibition of bacterial growth and galactosyltransferase activity of WbwC by α, ω-bis(3-alkyl-1H-imidazolium)alkane salts: Effect of varying carbon content.

Author

Kocev, Alexander, Melamed, Jacob, Wang, Shuo, Kong, Xianqi, Vlahakis, Jason Z., Xu, Yaozu, Szarek, Walter A., and Brockhausen, Inka

Subjects

*BACTERIAL growth, *GRAM-positive bacteria, *SALTS, *CELL growth, *GRAM-negative bacteria

Abstract

A series of compounds was designed and synthesized having two imidazolium rings separated by a polymethylene spacer and having alkyl substituents on each of the imidazolium rings. The compounds were assayed for their effects on the activity of galactosyltransferase WbwC, and also on the growth of Gram-negative and Gram-positive bacteria, as well as human cells. The inhibition observed on enzyme activities and cell growth was dependent on the total number of carbons in the spacer and the alkyl substituents on the imidazolium rings. These readily synthesized, achiral compounds have potential as antimicrobial and antiseptic agents. [ABSTRACT FROM AUTHOR]

Published

2020

274. Synthesis and biological evaluation of novel 3-benzylcoumarin-imidazolium salts.

Author

Wang, Xue-Quan, Chen, Xue-Bing, Ye, Ping-Ting, Yang, Zhi-Xin, Bai, Meng-Jiao, Duan, Su-Yue, Li, Yan, and Yang, Xiao-Dong

Subjects

*BIOSYNTHESIS, *CELL lines, *SALT, *BIOCHEMICAL mechanism of action, *STRUCTURE-activity relationships, *BENZIMIDAZOLES

Abstract

A series of novel 3-benzylcoumarin-imidazolium salts were prepared and evaluated in vitro against a panel of human tumor cell lines. The results showed that the existence of 5,6-dimethyl-benzimidazole ring and substitution of the imidazolyl-3-position with a naphthylacyl group were vital for modulating cytotoxic activity. Notably, compound 38 was found to be the most potent derivative with IC 50 values of 2.04–4.51 μM against five human tumor cell lines, while compound 34 were more selective to SW-480 cell lines with IC 50 value 40.0-fold lower than DDP. Mechanism of action studies indicated that compound 38 can cause the G0/G1 phase cell cycle arrest and apoptosis in SMMC-7721 cell lines. [ABSTRACT FROM AUTHOR]

Published

2020

275. C- and N-Adducts of N-alkenyl substituted Arduengo carbene and N-alkyl substituted imidazole with PF5: synthesis and structural investigation

Author

Tian, Chong, Nie, Wanli, Chen, Qiao, Sun, Guofeng, Hu, Jianping, and Borzov, M. V.

Published

2014

276. Modified approach to the Arduengo carbene complexes of silver

Author

Tian, Chong, Nie, Wanli, Chen, Qiao, Sun, Guofeng, and Borzov, M. V.

Published

2014

277. Highly Efficient Reusable Carboxy Group Functionalized Imidazolium Salts for a Simple and Cost-effective Preparation of pyrano[2,3-d]pyrimidinone Derivatives.

Author

Ezzatzadeh E, Sheikholeslami-Farahani F, Yadollahzadeh K, and Rezayati S

Subjects

Imidazoles economics, Molecular Structure, Pyrans chemistry, Pyrans economics, Pyrimidinones chemistry, Pyrimidinones economics, Salts chemistry, Salts economics, Imidazoles chemistry, Pyrans chemical synthesis, Pyrimidinones chemical synthesis

Abstract

Aims and Objective: In the current study, environmentally benign and cost-effective procedures were suggested for the preparation of carboxy group functionalized imidazolium salts, including [Cmmim]BF4 - or [Cmmim]Br- as a new, reusable Brønsted acidic ionic liquid (BAIL) catalyst. Then, the catalytic performance of [Cmmim]BF4 - or [Cmmim]Br- were successfully inspected towards the three---components one---pot preparation of pyrano[2,3-d]pyrimidinone derivatives 4a-4q. The mentioned procedures show short reaction times, easy work-up procedure, green conditions, high yields of the products, high potent of recovering, and reusing capability. The current study is useful and adequate for the application and development of imidazolium salts on the basis of green chemistry principles., Materials and Methods: An aromatic aldehyde (1 mmol), barbituric acid (1 mmol), and malononitrile (1 mmol) were placed in a round---bottomed flask containing ethanol (5 mL). BAILs A and B (0.1 mmol, 10 mol%) were added to the mixture. The suspension was magnetically stirred at room temperature for an appropriate time (Table 2). After completion of the reaction, which was monitored by TLC (n---hexane:ethyl acetate = 3:1), the pure product was filtered off to separate the catalyst, washed with water, and recrystallized from ethanol to afford the pure compound. After separation of the product, the catalyst was recovered by evaporation of water, washed with Et2O, dried under vacuum for 2 h, and reused for the same reaction., Results: The mentioned procedure shows short reaction times, easy work-up procedure, green conditions, high yields of the products, and high potent of recovering and reusing capability., Conclusion: In this study, we unveiled the synthesis of a new acetic acid functionalized ionic liquids [Cmmim]BF4 - BAIL A or [Cmmim]Br- BAIL B and their application for the preparation of pyrano[2,3-d]pyrimidinone derivatives via a three-component reaction among various aromatic aldehydes, barbituric acid, and malononitrile under mild and metal-free conditions. A wide range of pyrano[2,3-d]pyrimidinone derivatives bearing diverse functional groups was obtained in short reaction and excellent yields. Operational simplicity, recoverability, and reusability of catalysts, cheap and chemically stable reagents, high catalytic activity, easy work-up, and the eco-friendly procedure, make this method environmentally benign and cost-effective., (Copyright© Bentham Science Publishers; For any queries, please email at epub@benthamscience.net.)

Published

2021

278. Iron-Based Imidazolium Salts as Versatile Catalysts for the Synthesis of Quinolines and 2- and 4-Allylanilines by Allylic Substitution of Alcohols

Author

Isidro M. Pastor, Paz Trillo, Universidad de Alicante. Departamento de Química Orgánica, Universidad de Alicante. Instituto Universitario de Síntesis Orgánica, and Nuevos Materiales y Catalizadores (MATCAT)

Subjects

Substitution reaction, Reaction conditions, Allylic rearrangement, 010405 organic chemistry, Chemistry, organic chemicals, Quinoline, General Chemistry, C-alkylation, 010402 general chemistry, 01 natural sciences, 0104 chemical sciences, Catalysis, Imidazolium salts, chemistry.chemical_compound, Aniline, Química Orgánica, Nucleophile, Allylic alcohols, Iron based, Quinolines, Organic chemistry, Iron(III) catalysts

Abstract

Readily available iron(III)-based imidazolium salts have proven to be very versatile catalysts for the allylic substitution reaction of alcohols with anilines, allowing the synthesis of quinolines, 2-allylanilines and 4-allylanilines just by modulating the reaction conditions. Noteworthy, the formation of quinoline derivatives proceeds by ortho-allylation of the corresponding aniline and subsequent oxidative cyclization mediated by atmospheric oxygen. The reaction using anilines as nucleophiles is selective to the C-alkylation versus the N-alkylation, under any reaction conditions studied. This work was financially supported by the University of Alicante.

Published

2016

279. Hirshfeld and DFT analysis of the N-heterocyclic carbene proligand methylenebis(N-butylimidazolium) as the acetonitrile-solvated diiodide salt

Author

Pablo J. Sanz Miguel, Alba Vellé, and Andrea Cebollada

Subjects

NHC, Iodide, Crystal structure, 010402 general chemistry, 01 natural sciences, Medicinal chemistry, Inorganic Chemistry, chemistry.chemical_compound, DFT analysis, Bromide, Materials Chemistry, Organic chemistry, Hirshfeld surface analysis, Physical and Theoretical Chemistry, Acetonitrile, chemistry.chemical_classification, 010405 organic chemistry, Chemistry, Hydrogen bond, Condensed Matter Physics, 0104 chemical sciences, Imidazolium salts, Inter­action pattern, Organocatalysis, Density functional theory, Carbene, N-heterocyclic carbene

Abstract

N-Heterocyclic carbene (NHC) based systems are usually exploited in the exploration of catalytic mechanisms and processes in organocatalysis, and homo- and heterogeneous catalysis. However, their molecular structures have not received adequate attention. The NHC proligand methylenebis(N-butylimidazolium) has been synthesized as the acetonitrile solvate of the diiodide salt, C15H26N4(2+)·2I(-)·CH3CN [1,1'-methylenebis(3-butylimidazolium) diiodide acetonitrile monosolvate], and fully characterized. An interesting cation-anion connection pattern has been identified in the crystal lattice, in which three iodide anions interact simultaneously with the cisoid-oriented cation. A Hirshfeld surface analysis reveals the predominance of hydrogen bonding over anion-π interactions. This particular arrangement is observed in different methylene-bridged bis(imidazolium) cations bearing chloride or bromide counter-anions. Density functional theory (DFT) calculations with acetonitrile as solvent reproduce the geometry of the title cation.

Published

2016

280. Fully Atomistic Simulations of the Ionic Liquid Crystal [C16mim][NO3]: Orientational Order Parameters and Voids Distribution

Author

Saielli and Giacomo

Subjects

chemistry.chemical_classification, chemistry.chemical_element, Ionic bonding, 02 engineering and technology, 010402 general chemistry, 021001 nanoscience & nanotechnology, 01 natural sciences, 0104 chemical sciences, Surfaces, Coatings and Films, Crystal, Molecular dynamics, chemistry.chemical_compound, Crystallography, Membrane, Xenon, chemistry, Chemical physics, Phase (matter), MOLECULAR-DYNAMICS SIMULATIONS, COARSE-GRAINED MODELS, FORCE-FIELD, SPATIAL HETEROGENEITY, PHYSICAL-PROPERTIES, DICYANAMIDE ANIONS, PHASE-TRANSITIONS, IMIDAZOLIUM SALTS, TAIL AGGREGATION, MD SIMULATIONS, Ionic liquid, Materials Chemistry, Physical and Theoretical Chemistry, 0210 nano-technology, Alkyl

Abstract

We present a fully atomistic molecular dynamics simulation of the smectic phase of the ionic liquid crystal (ILC) 1-hexadecyl-3-methylimidazolium nitrate, [C(16)MIm][NO3]. We have characterized the structure of the phase by means of a set of radial distribution functions resolved along the director and in the plane of the smectic layers. The results obtained allow us to discuss the similarities in the microscopic structure of ionic liquids (ILs) and ILCs. In addition to this, we have calculated the orientational order parameters, S, of the methylene groups of the alkyl chain and compared them With the results obtained for phospholipidic membranes from H-2 NMR experiments. We also discuss the orientational order parameters of the imidazolium ring. Finally, we analyze the distribution of voids in the ILC phase. We have found that voids of considerable volume to host a nonpolar gas, e.g. xenon, are localized in the hydrophobic layers and almost absent in the ionic layers.

Published

2016

281. Iron-Based Imidazolium Salts as Versatile Catalysts for the Synthesis of Quinolines and 2- and 4-Allylanilines by Allylic Substitution of Alcohols

Author

Universidad de Alicante. Departamento de Química Orgánica, Universidad de Alicante. Instituto Universitario de Síntesis Orgánica, Trillo Alarcón, María Paz, Pastor, Isidro M., Universidad de Alicante. Departamento de Química Orgánica, Universidad de Alicante. Instituto Universitario de Síntesis Orgánica, Trillo Alarcón, María Paz, and Pastor, Isidro M.

Abstract

Readily available iron(III)-based imidazolium salts have proven to be very versatile catalysts for the allylic substitution reaction of alcohols with anilines, allowing the synthesis of quinolines, 2-allylanilines and 4-allylanilines just by modulating the reaction conditions. Noteworthy, the formation of quinoline derivatives proceeds by ortho-allylation of the corresponding aniline and subsequent oxidative cyclization mediated by atmospheric oxygen. The reaction using anilines as nucleophiles is selective to the C-alkylation versus the N-alkylation, under any reaction conditions studied.

Published

2016

282. Adamantylated trisimidazolium-based tritopic guests and their binding properties towards cucurbit[7]uril and beta-cyclodextrin

Author

Kulkarni, Shantanu Ganesh, Prucková, Zdeňka, Rouchal, Michal, Dastychová, Lenka, Vícha, Robert, Kulkarni, Shantanu Ganesh, Prucková, Zdeňka, Rouchal, Michal, Dastychová, Lenka, and Vícha, Robert

Abstract

Two new homotritopic guests based on tris(benz) imidazolium salts with adamantane binding sites were prepared. NMR and calorimetric titration experiments revealed that each of the three sites independently binds beta-cyclodextrin (beta-CD) or cucurbit[7]uril (CB7) units to form binary host-guest complexes with 1:3 stoichiometry. The association constants for the single binding site for beta-CD and CB7 were determined using titration calorimetry and are in the order of 10(5) and 10(9-10) dm(3) mol(-1), respectively. In addition, both guests were able to form ternary systems with beta-CD and CB7 in ratios of 1:1:2 and 1:2:1, respectively.

Published

2016

283. Conductivity behavior and solid state NMR investigation of imidazolium-based polymeric ionic liquids

Author

Ümit Akbey, Hamit Erdemi, and Wolfgang H. Meyer

Subjects

chemistry.chemical_classification, Thermogravimetric analysis, Materials science, Polymer electrolyte, Inorganic chemistry, General Chemistry, Polymer, Conductivity, Condensed Matter Physics, Imidazolium salts, Ionic liquids, chemistry.chemical_compound, Ionic conductivity, chemistry, Proton transport, Ionic liquid, General Materials Science, Phosphoric acid, Alkyl, Solid state NMR

Abstract

Novel proton-conducting anhydrous polymer electrolytes comprising imidazolium ionic liquid units in the polymeric structure have been synthesized. These polymeric ionic liquid electrolytes were doped with phosphoric acid to get Poly(AcIm-n)xH3PO4, where x is the number of moles of H3PO4 per polymer repeat unit and n is the number of alkyl spacers (-CH2). Thermogravimetric analysis (TGA) illustrates that these materials are thermally stable up to about 200 °C. DSC results show the softening effect of the length of the spacers as well as phosphoric acid. Mechanical studies displayed the cross-linking of the samples which were also confirmed by solid state 31P CPMAS NMR spectra. The proton conductivity of the samples increases with x and reaches 10-2 S cm-1 at 120 °C for both Poly(AcIm-2)2H3PO4 and Poly(AcIm-6)2H3PO4. The conductivity isotherms show that the proton transport in acid-doped polymeric ionic liquids obeys VTF behavior.

Published

2010

284. Tetrasubstituted Imidazolium Salts as Potent Antiparasitic Agents against African and American Trypanosomiases

Author

John M. Kelly, Diego Muñoz-Torrero, Rodolfo Lavilla, Nicola Kielland, Ornella Di Pietro, Ouldouz Ghashghaei, Belén Pérez, Martin C. Taylor, Marc Revés, and Universitat de Barcelona

Subjects

0301 basic medicine, Chagas disease, Trypanosoma, Agents antiinfecciosos, Cell Survival, Antiparasitic, medicine.drug_class, Trypanosoma brucei gambiense, Trypanosoma cruzi, 030106 microbiology, Pharmaceutical Science, Tripanosoma, imidazolium salts, Trypanosoma brucei, Analytical Chemistry, Myoblasts, lcsh:QD241-441, isocyanides, 03 medical and health sciences, Parasitic Sensitivity Tests, lcsh:Organic chemistry, Biological property, Drug Discovery, medicine, Animals, Humans, Chagas Disease, Physical and Theoretical Chemistry, Antiparasitic agents, biology, Chemistry, Communication, Organic Chemistry, Imidazoles, Isocyanides, biology.organism_classification, medicine.disease, Trypanocidal Agents, Antiparasitic agent, Combinatorial chemistry, Rats, Imidazolium salts, Trypanosomiasis, African, Chemistry (miscellaneous), Anti-infective agents, Molecular Medicine, antiparasitic agents

Abstract

Imidazolium salts are privileged compounds in organic chemistry, and have valuable biological properties. Recent studies show that symmetric imidazolium salts with bulky moieties can display antiparasitic activity against T. cruzi. After developing a facile methodology for the synthesis of tetrasubstituted imidazolium salts from propargylamines and isocyanides, we screened a small library of these adducts against the causative agents of African and American trypanosomiases. These compounds display nanomolar activity against T. brucei and low (or sub) micromolar activity against T. cruzi, with excellent selectivity indexes and favorable molecular properties, thereby emerging as promising hits for the treatment of Chagas disease and sleeping sickness.

Published

2018

285. Naphthalimide Imidazolium-Based Supramolecular Hydrogels as Bioimaging and Theranostic Soft Materials.

Author

Rizzo C, Cancemi P, Mattiello L, Marullo S, and D'Anna F

Subjects

Cell Line, Tumor, Cell Survival drug effects, Fluorescent Dyes chemical synthesis, Fluorescent Dyes pharmacology, Humans, Hydrogels chemical synthesis, Hydrogels pharmacology, Imidazoles pharmacology, Macromolecular Substances chemical synthesis, Macromolecular Substances chemistry, Macromolecular Substances pharmacology, Molecular Structure, Naphthalimides pharmacology, Particle Size, Surface Properties, Fluorescent Dyes chemistry, Hydrogels chemistry, Imidazoles chemistry, Naphthalimides chemistry, Optical Imaging, Theranostic Nanomedicine

Abstract

1,8-Naphthalimide-based imidazolium salts differing for the alkyl chain length and the nature of the anion were synthesized and characterized to obtain fluorescent probes for bioimaging applications. First, their self-assembly behavior and gelling ability were investigated in water and water/dimethyl sulfoxide binary mixtures. Only salts having longer alkyl chains were able to give supramolecular hydrogels, whose properties were investigated by using a combined approach of fluorescence, resonance light scattering, and rheology measurements. Morphological information was obtained by scanning electron microscopy. In addition, conductive properties of organic salts in solution and gel state were analyzed. Imidazolium salts were successfully tested for their possible application as bioimaging and cytotoxic agents toward three cancer cell lines and a nontumoral epithelial cell line. Characterization of their behavior was performed by MTT and cell-based assays. Finally, the biological activity of hydrogels was also investigated. Collectively, our findings showed that naphthalimide-based imidazolium salts are promising theranostic agents and they were able to preserve their biological properties also in the gel phase.

Published

2020

286. Crystal structures and phase transitions of imidazolium hypodiphosphates.

Author

Budzikur D, Szklarz P, Kinzhybalo V, and Ślepokura KA

Abstract

Two imidazolium hypodiphosphates, (C 3 H 5 N 2 )(H 3 P 2 O 6 ) (I) and (C 3 H 5 N 2 ) 2 (H 2 P 2 O 6 ) (II), have been synthesized and structurally characterized. In both metal-free organic-inorganic hybrids (I) and (II), the hypodiphosphate mono- and dianions, (H 3 P 2 O 6 ) - and (H 2 P 2 O 6 ) 2- , form hydrogen-bonded frameworks of different types, to which the organic cations are linked via N-H...O and C-H...O hydrogen bonds. The purity of the compounds was confirmed by powder X-ray diffraction. Differential scanning calorimetry of compound (I) revealed two structural phase transitions: continuous at 311.8 K [cooling/heating; from high-temperature phase (HTP) to room-temperature phase (RTP)] and a discontinuous one at 287.9/289.2 K [RTP → low-temperature phase (LTP)]. Compound (I) is characterized in a wide temperature range by single-crystal and powder X-ray diffraction methods. Crystal structures of high- and low-temperature phases are determined, which show orthorhombic (HTP, Pnna, No. 52) → monoclinic (LTP, P2 1 /n11, No. 14, a-axis doubled) structural change on cooling with an intermediate incommensurately modulated phase (RTP). Dynamic properties of polycrystalline (I) were studied by means of dielectric spectroscopy. The dielectric behaviour is explained by the motion of imidazolium cations.

Published

2020

287. Palladium containing nanostructured silica functionalized with pyridine sites: a versatile heterogeneous catalyst for Heck, Sonogashira, and cyanation reactions

Author

Vivek Polshettiwar, Peter Hesemann, Joël J. E. Moreau, Institut Charles Gerhardt Montpellier - Institut de Chimie Moléculaire et des Matériaux de Montpellier (ICGM ICMMM), Ecole Nationale Supérieure de Chimie de Montpellier (ENSCM)-Centre National de la Recherche Scientifique (CNRS)-Université de Montpellier (UM)-Université Montpellier 1 (UM1)-Université Montpellier 2 - Sciences et Techniques (UM2)-Institut de Chimie du CNRS (INC), and CNRS, Ministère de la Recherche

Subjects

chemistry.chemical_element, Sonogashira coupling, Cyanation, 010402 general chemistry, Heterogeneous catalysis, 01 natural sciences, Biochemistry, Catalysis, Heck reaction, chemistry.chemical_compound, Bromide, Drug Discovery, Pyridine, Polymer chemistry, [CHIM.ORGA]Chemical Sciences/Organic chemistry, 010405 organic chemistry, Organic Chemistry, [CHIM.MATE]Chemical Sciences/Material chemistry, Imidazolium salts, 0104 chemical sciences, chemistry, Nanostructured hybrid silica, Sonogashira reaction, Palladium

Abstract

International audience; Nanostructured hybrid silica bearing pyridine binding sites was prepared in a template assisted hydrolysis–polycondensation of tetraethylorthosilicate (TEOS) and the ionic precursor N,N-dimethyl-pyridin-4-yl-(3-triethoxysilyl-propyl)-ammonium iodide using N-dodecyl-N′-methyl-imidazolium bromide as structure directing agent. After treatment with palladium acetate, the material appeared as a versatile heterogeneous catalyst for Heck, Sonogashira, and cyanation reactions. In Heck and Sonogashira cross-coupling reactions, unchanged catalytic activity was observed in at least five reaction cycles.

Published

2007

288. Novel triazine-functionalized tetra-imidazolium hexafluorophosphate salt: Synthesis, crystal structure and DFT study.

Author

Salman, Abbas W., Haque, Rosenani A., Kadhim, Mustafa M., Malan, Frederick P., and Ramasami, Ponnadurai

Subjects

*CRYSTAL structure, *DENSITY functionals, *SALT, *MOLECULAR structure, *ATMOSPHERIC nitrogen

Abstract

A novel triazine-functionalized tetra-imidazolium hexafluorophosphate salt was synthesized by the reaction of N-methylimidazole with cyanuric chloride under a nitrogen atmosphere. The prepared compound was characterized by 1H &13C NMR, CHN analysis, and single crystal X-ray technique. X-ray diffraction data revealed an essentially planar structure with two identical moieties of the title compound linked by a strong O–H⋯O hydrogen bond. Density functional theory method was used to have molecular insights into the structure and bonding of the compound. Novel triazine-functionalized tetra-imidazolium hexaflourophosphate salt was synthesized and characterized. X-ray diffraction data revealed a unique structure as two identical moieties of the salt linked by a strong O–H⋯O hydrogen bond. Image 1 • Novel triazine-functionalized tetra-imidazolium hexafluorophosphate salt. • The structure was confirmed by X-ray technique. • X-ray diffraction revealed a unique structure. • DFT was used to have molecular insight into the structure. [ABSTRACT FROM AUTHOR]

Published

2019

289. Ultra-high pressure direct syntheses of bis(imidazolium-3-yl)alkane dichlorides.

Author

Harwood, Laurence M., Pitt, Phillip, Scott, Janet L., and Sousa, Dora

Subjects

*SUBSTITUTION reactions, *PRESSURE, *IMIDAZOLES, *DICHLOROMETHANE, *IONIC liquids

Abstract

The ultra-high pressure Menshutkin reaction of N-substituted imidazoles and α,ω-dichloroalkanes provides access to a wide variety of bis(imidazoliumyl)alkane dichlorides in an efficient, one-pot process. Although the substitution reactions of dichloromethane at ambient pressure can be exceedingly slow, at 1.9 GPa, syntheses are usually quantitative in under 24 h. Reactions involving congested imidazole starting materials, that otherwise terminate after formation of the mono-imidazolium salt, are driven to the bis-imidazolium salt at 1.9 GPa. The rates of reaction increase with α,ω-dichloroalkane chain length, decrease with increasing bulk and imidazole N-substituent length, and the reactions of the more hindered imidazoles are more sensitive to the pressure-rate enhancement. Image 1 • The Menshutkin reaction is strongly accelerated by ultra high pressures. • Reactions of dichloromethane were generally rapid and high yielding. • Product distribution is shifted towards the bis(imidazolium) salt. • Steric effects on the rate of reaction clearly demonstrated. [ABSTRACT FROM AUTHOR]

Published

2019

290. Imidazolium salts with antifungal potential for the control of head blight of wheat caused by Fusarium graminearum

Author

Ricardo K. Donato, Alexandre Meneghello Fuentefria, A.D. Ribas, C. Bündchen, D. Dalla‐Lana, A.M. Dalbem, E. M. Del Ponte, and Henri Stephan Schrekker

Subjects

0106 biological sciences, 0301 basic medicine, Fusarium, Microbial Sensitivity Tests, Biology, 01 natural sciences, Applied Microbiology and Biotechnology, Conidium, 03 medical and health sciences, Incubation, Mycelium, Triticum, Fungicides, Inhibition, Plant Diseases, Imidazoles, food and beverages, General Medicine, Spores, Fungal, biology.organism_classification, Imidazolium salts, Fungicides, Industrial, Fungicide, Fusarium graminearum, Horticulture, 030104 developmental biology, Gibberella zeae, Agronomy, Germination, Wheat, Potato dextrose agar, 010606 plant biology & botany, Biotechnology

Abstract

AIMS Evaluate the in vitro effect of imidazolium salts (IMS) on the conidia germination and mycelial growth of Fusarium graminearum and their in vivo efficacy for suppressing the symptoms of the disease and infection of kernels in wheat plants. METHODS AND RESULTS The minimum inhibitory concentrations (MIC) of three IMS (C16 MImCl, C16 MImMeS and C16 MImNTf2 ) were determined for four F. graminearum isolates using serial broth dilution method. The MICs found for all IMS were either 3·12 or 6·25 μg ml(-1) across the isolates, with the former as the most frequent. In the mycelial growth assay on potato dextrose agar media, only the C16 MImCl among the IMS reduced 50% of mycelial growth of one isolate at an estimated concentration of 0·32 mg ml(-1) . The time-kill curves showed a strong fungicidal effect starting 1 h after incubation at a concentration of 12·5 μg ml(-1) , representing a fourfold increase in the most frequent MIC. The C16 MImCl sprayed onto the spikes of potted wheat plants during the flowering stage reduced disease intensity at levels comparable to the commercial fungicide when applied preventatively (1 h prior to fungal inoculation), rather than curatively, and at the higher dosage (2 mg ml(-1) ) rather than lower dosage (0·5 mg ml(-1) ). CONCLUSIONS C16 MImCl proved to be a potent inhibitor of F. graminearum growth and provided good levels of control of the disease at levels comparable to a commercial fungicide, in wheat plants treated prior to fungal infection during flowering stages. SIGNIFICANCE AND IMPACT OF THE STUDY This study suggests the potential of using IMS as alternative to the hazardous standard fungicides in the management of Fusarium head blight of wheat.

Published

2015

291. A Greener Method Towards the Synthesis of 1,3-Diarylimidazolium Tetrafluoroborates

Author

Ikhile, M. I., Bala, M. D., and Vincent Nyamori

Subjects

synthesis, NHC-metal ligand precursors, Diimines, imidazolium salts, solvent-free

Abstract

A new strategic method for the synthesis of 1,3-diarylimidazolium tetrafluoroborate salts is illustrated herein. A solvent-free approach was employed in the synthesis of the diimines which are precursors in the preparation of the imidazolium salts. The reaction proceeds faster, cleaner and in a better yield than previously reported methods.Keywords: Diimines, imidazolium salts, NHC-metal ligand precursors, solvent-free, synthesis

Published

2015

292. Ru-Ag and Ru-Au dicarbene complexes from an abnormal carbene ruthenium system

Author

Walter Baratta, Mario J. Bitzer, Fritz E. Kühn, Alexander Pöthig, and Christian Jandl

Subjects

Metalation, C-H ACTIVATION, IMIDAZOLIUM SALTS, chemistry.chemical_element, Photochemistry, Inorganic Chemistry, chemistry.chemical_compound, Transmetalation, N-HETEROCYCLIC CARBENE, Bromide, CHEMISTRY, Polymer chemistry, TRANSFER HYDROGENATION, Bimetallic strip, COORDINATION, Ligand, CATALYSIS, Cationic polymerization, Ruthenium, ddc, chemistry, SILVER(I), METAL-COMPLEXES, LIGANDS, Carbene

Abstract

Reaction of [Ru(OAc)2(PPh3)2] with a P-functionalized imidazolium bromide easily affords a cationic abnormal carbene Ru system. Metalation with Ag2O yields a Ru-Ag complex containing an anionic dicarbene ligand, while subsequent transmetalation with Au(tht)Cl leads to the corresponding Ru-Au system. The bimetallic complexes were characterized by single crystal X-ray diffraction and are the first examples of complexes bearing anionic dicarbene ligands connecting two different d-block elements.

Published

2015

293. A Novel Viewpoint of Imidazolium Salts for Selective Extraction of

Author

Eyupoglu, V, Polat, E, Kunduracioglu, A, and Turgut, HI

Subjects

Ni(II), selective solvent extraction, Co(II), cobalt nickel separation, imidazolium salts, ionic liquids

Abstract

In this study, the selective extraction and stripping conditions of Co(II) from acidic thiocyanate solution containing Co(II) and Ni(II) by ionic-liquid-based solvent-extraction technique using symmetric and asymmetric imidazolium bromide salts substituting butyl and isobutyl groups were experimentally optimized. The molecular structure effect of imidazolium bromide salts (IMs) have been determined as main factor to extract Co(II). The executive parameters on stripping and extraction processes, such as IMs concentration, pH, thiocyanate concentration, stripping reagent type, and concentration, were experimentally investigated. Molecular variation of organometalic complex (adduct) consisting of IMs and Co-SCN, were illuminated by comparision of ATR-FTIR spectrums of pure and Co-SCN loaded IMs. Stoichiometric rates of the adduct was verified with slope analysis. In light of these examinations, Co(SCN)(3)(-) has been determined as prominent Co-SCN species in aqueous media. Symetric IMs were identified as more effective than asymmetric ones on selective separation of Co(II) from Ni(II). Under optimum conditions, 99.20% of Co(II) was extracted and 93.33% of Co(II) was recovered with higher separation factors especially in diluted solution, whereas, Ni(II) extractions were negligible. We have concluded that the separation power of this study is high in Co(II)/Ni(II) containing dilute solutions and it can be used in preconcentration purposes effectively.

Published

2015

294. Imidazolium salts grafted on cotton fibres for long-term antimicrobial activity

Author

Valery A. Vasnev, B. A. Izmaylov, Diana Di Gioia, Irene Aloisio, G. D. Markova, Martino Colonna, Boris Izmaylov, Diana Di Gioia, Galy Markova, Irene Aloisio, Martino Colonna, and Valery Vasnev

Subjects

cotton fibers, Polymers and Plastics, Chemistry, General Chemical Engineering, IMIDAZOLIUM SALTS, technology, industry, and agriculture, Ionic bonding, General Chemistry, ANTIMICROBIAL PROPERTIES, Antimicrobial, Biochemistry, chemistry.chemical_compound, Covalent bond, Gram negative bacterium, Siloxane, Polymer chemistry, Materials Chemistry, Environmental Chemistry, Organic chemistry, Fourier transform infrared spectroscopy

Abstract

New antimicrobial (AM) coatings based on imidazolium salts have been prepared linking the imidazolium salts to the cotton fabric using siloxane oligomers as coupling agents. Three different imidazolium salts, linked to the siloxane oligomers connected to the cotton fabric either with ionic or covalent linkages, have been used. FTIR analysis shows that the imidazolium salts are linked to the cotton fabric. All the coatings prepared have high antimicrobial activity at both concentrations tested (3 and 10 wt%) and against a Gram positive and a Gram negative bacterium. The AM activity is mainly retained after 4 cycles of washing.

Published

2015

295. Application of Chromatographic and Electrophoretic Methods for the Analysis of Imidazolium and Pyridinium Cations as Used in Ionic Liquids

Author

Piotr Stepnowski

Subjects

separation, analysis, Ionic bonding, imidazolium salts, High-performance liquid chromatography, Catalysis, Inorganic Chemistry, ionic liquids, lcsh:Chemistry, chemistry.chemical_compound, Capillary electrophoresis, Physical and Theoretical Chemistry, Molecular Biology, lcsh:QH301-705.5, Spectroscopy, pyridinium salts, Aqueous solution, Chromatography, Organic Chemistry, Cationic polymerization, General Medicine, CE, Computer Science Applications, Electrophoresis, chemistry, lcsh:Biology (General), lcsh:QD1-999, Ionic liquid, Pyridinium, HPLC

Abstract

Interest in ionic liquids for their potential in different chemical processes isconstantly increasing, as they are claimed to be environmentally benign – excellent, non-volatile solvents for a wide range of applications. The wide applicability of thesecompounds also demands reliable, relatively simple and reproducible analytical techniques.These methods must be applicable not only to different technical or natural matrices but alsoto the very low concentrations that are likely to be present in biological and environmentalsystems. In this review, therefore, methods for separating and analysing imidazolium- andpyridinium-type ionic liquids in aqueous matrices using high performance liquidchromatography (HPLC) and capillary electrophoresis (CE) are examined. The techniquesfor identifying ionic liquids are meant primarily to track the concentrations of ionic liquidsas residues not only in products and wastes but also in biological or environmental samples.The application of hyphenated techniques in this field is intended to selectively separate thequaternary entity from other cationic and non-ionic species present in the matrix, and toenable its fine-scale quantification. Nowadays, methods developed for cation analysis arebased mostly on reversed-phase high-performance liquid chromatography, ionchromatography, ion-pair chromatography and capillary electrophoresis, where variousbuffered mobile phases are used.

Published

2006

296. Molecular Structure, Vibrational Spectra, and Hydrogen Bonding of the Ionic Liquid 1-Ethyl-3-methyl-1H-imidazolium Tetrafluoroborate

Author

Ana Vidiš, Alla V. Chernova, Paul J. Dyson, Sergey A. Katsyuba, and Elena E. Vandyukova

Subjects

molten-salts, Tetrafluoroborate, chloride, hexafluorophosphate, Inorganic chemistry, imidazolium salts, Biochemistry, Catalysis, Ion, Inorganic Chemistry, chemistry.chemical_compound, symbols.namesake, Hexafluorophosphate, Drug Discovery, Moiety, Molecule, Physical and Theoretical Chemistry, model, Hydrogen bond, exchange, Organic Chemistry, Crystallography, chemistry, Ionic liquid, symbols, Raman spectroscopy, energy

Abstract

The IR and Raman spectra and conformations of the ionic liquid 1-ethyl-3-methyl-1H-imidazolium tetrafluoroborate, [EMIM][BF4] (6), were analyzed within the framework of scaled quantum mechanics (SQM). It was shown that SQM successfully reproduced the spectra of the ionic liquid. The computations revealed that normal modes of the EMIM+ (.) BF4- ion pair closely resemble those of the isolated ions EMIM+ and BF4-, except for the antisymmetric BF stretching vibrations of the anion, and the out-of-plane and stretching vibrations of the H-C(2) moiety of the cation. The most plausible explanation for the pronounced changes of the latter vibrations upon ion-pair formation is the H-bonding between H-C(2) and BF4-. However, these weak H-bonds are of minor importance compared with the Coulomb interactions between the ions that keep them closely associated even in dilute CD2Cl2 Solutions. According to the 'gas-phase' computations, in these associates, the BF4- anion is positioned over the imidazolium ring of the EMIM+ cation and has short contacts not only with the H-C(2) of the latter, but also with a proton of the Me-N(3) group.

Published

2004

297. Cross-coupling of polychloroarenes with phenylboronic acid and organozinc compounds catalyzed by palladium complexes

Author

Burukin, A. S., Vasil'ev, A. A., Chizhov, A. O., and Zlotin, S. G.

Published

2005

298. Chemical properties of N-polyfluoroethylimidazole and -pyrrole derivatives

Author

Yagupolskii, L. M., Sokolenko, T. M., and Petko, K. I.

Published

2005

299. Sels d’imidazolium avec des anions catalytiques : vers le développement de nouveaux catalyseurs bio-hybrides actifs en milieu liquide ionique

Author

Gauchot, Vincent and Schmitzer, Andreea-Ruxandra

Subjects

Proline, Catalyseur bio-hybride, Complexe supramoléculaire, Organocatalyse asymétrique, Liquides Ioniques, Bio-hybrid catalyst, Ionic liquids, Imidazolium salts, Supramolecular complex, Asymmetric organocatalysis, Biotin-avidin technology, Sels d'imidazolium, Technologie biotine-avidine, Aldol

Abstract

Les liquides ioniques connaissent depuis quelques décennies un essor particulier en raison de leurs nombreuses propriétés physico-chimiques intéressantes, telles qu’une faible pression de vapeur saturante, une viscosité limitée, une faible miscibilité avec la plupart des solvants communs, ou encore des propriétés d’agencement supramoléculaire, qui en font des outils puissants dans de nombreux domaines de la chimie. Les sels d’imidazolium représentent la plus grande famille de liquides ioniques à ce jour. Leur modulabilité leur permet d’être dérivés pour de nombreuses applications spécifiques, notamment en synthèse organique, où ils sont utilisés majoritairement comme solvants, et plus récemment comme catalyseurs. Les travaux présentés dans cette thèse se concentrent sur leur utilisation en synthèse organique, à la fois comme solvants et principalement comme catalyseurs chiraux, catalyseurs pour lesquels l’anion du sel est l’espèce catalytique, permettant d’ajouter de la flexibilité et de la mobilité au système. En tirant parti de la tolérance des liquides ioniques envers la majorité des macromolécules naturelles, l’objectif principal des travaux présentés dans cette thèse est le développement d’un nouveau type de catalyseur bio-hybride reposant sur l’encapsulation d’un sel d’imidazolium dans une protéine. Par le biais de la technologie biotine-avidine, l’inclusion supramoléculaire de sels d’imidazolium biotinylés portant des contre-anions catalytiques dans l’avidine a été réalisée et exploitée en catalyse. Dans un premier temps, le développement et l’étude de deux sels de 1-butyl-3-méthylimidazolium possédant des anions chiraux dérivés de la trans-4-hydroxy-L-proline sont rapportés, ainsi que leur comportement dans des réactions énantiosélectives d’aldol et d’addition de Michael. Ces types de composés se sont révélés actifs et performants en milieu liquide ionique. Dans un second temps, la préparation de sels d’imidazolium dont le cation est biotinylé et portant un contre-anion achiral, a été réalisée. Le comportement de l’avidine en milieu liquide ionique et son apport en termes de chiralité sur le système bio-hybride ont été étudiés. Les résultats montrent le rôle crucial des liquides ioniques sur la conformation de la protéine et l’efficacité du catalyseur pour des réactions d’aldol. Dans un dernier temps, l’influence de la structure du cation et de l’anion sur le système a été étudiée. Différents espaceurs ont été introduits successivement dans les squelettes cationiques et anioniques des sels d’imidazolium biotinylés. Dans le cas du cation, les résultats ne révèlent aucune influence majeure sur l’efficacité du catalyseur. La structure de l’anion se montre cependant beaucoup plus importante : la préparation de différents catalyseurs bio-hybrides possédant des anions aux propriétés physico-chimiques différentes a permis d’obtenir de plus amples informations sur le mode de fonctionnement du système bio-hybride et de la coopérativité entre l’avidine et l’anion du sel d’imidazolium.La nature ionique de la liaison cation-anion offrant une liberté de mouvement accrue à l’anion dans la protéine, la tolérance à différents substrats a également été abordée après optimisation du système., Ionic liquids have gained a growing interest due to many interesting properties, such as low vapor pressure, reasonably low viscosity, poor miscibility with common organic solvents, and also exhibit supramolecular organization in solution, which make them interesting tools for several fields of applications in chemistry. As of today, imidazolium salts make up the largest family of ionic liquids. Their modulability allows them to be used for a wide range of applications, notably in organic chemistry, where they are mainly used as solvents, but also more recently as actual catalysts. The work presented in this thesis focuses on their use as solvents and chiral catalysts, in which the catalytic species is the anion of the imidazolium salts, adding more flexibility and mobility to the whole system. Taking advantage from the tolerance of ionic liquids toward biological macromolecules, the main goal of this work is the design and development of a new type of bio-hybrid catalyst based on the encapsulation of an imidazolium salt inside the cavity of a host protein. Based on the biotin-avidin technology, the supramolecular ligation of biotinylated imidazolium salts inside avidin, bearing catalytic counter-anion, is discussed. As a first step, the development and studies of two 1-butyl-3-methylimidazolium-based salts, bearing trans-4-hydroxy-L-proline-derived anions are reported. Their use for asymmetric catalysis in ionic liquids media is disclosed, both for the aldol and Michael additions. Results show that these compounds are viable and efficient organocatalysts in ionic liquids. Subsequently, the preparation of biotinylated imidazolium salts, bearing a racemic pyrrolidine-based counter-anion is reported. Avidin behaviour in ionic liquid media, as well as its contribution for the stereocontrol for the whole bio-hybrid system, is assessed. Results highlight the critical role of the ionic liquid reaction medium on the protein’s conformation, and thus the efficiency of the bio-hybrid catalyst towards aldol reactions. Finally, the influence of the structure of the cation and anion on the catalytic properties of the biohybrid system were investigated. Several spacers were inserted successively both in the cation and anion structures of the biotinylated imidazolium salts. Regarding the cation modifications, results show no major influence on the bio-hybrid catalyst behaviour. However, modifying the anion structure revealed the much more important role of the anion towards catalysis. Preparation of different anions, each bearing a different spacer, granting them different physico-chemical properties, gives rise to further information regarding the behaviour of the bio-hybrid catalyst, and possible cooperativity between avidin and the imidazolium salt. The ionic character of the interaction between the anion and the cation, allowing a greater freedom of movement of the anion inside the avidin’s cavity, and the tolerance of the bio-hybrid system to different substrates were studied.

Published

2014

300. A simple halide-to-anion exchange method for heteroaromatic salts and ionic liquids

Author

Immaculada Dinarès, Ermitas Alcalde, Neus Mesquida, Anna Ibáñez, and Universitat de Barcelona

Subjects

Anions, Inorganic chemistry, ammonium salts, Sals, Pharmaceutical Science, Halide, imidazolium salts, Article, Analytical Chemistry, Ion, ionic liquids, lcsh:QD241-441, chemistry.chemical_compound, lcsh:Organic chemistry, Heterocyclic Compounds, Impurity, Drug Discovery, Ammonium, Physical and Theoretical Chemistry, Ion-exchange resin, Solucions iòniques, pyridinium salts, Compostos heterocíclics, Ionic solutions, Ion exchange, Chemistry, Organic Chemistry, Imidazoles, anion exchange resin, counteranion exchange, Solvent, Chemistry (miscellaneous), Ionic liquid, Solvents, Molecular Medicine, Salts, Heterocyclic compounds

Abstract

A broad and simple method permitted halide ions in quaternary heteroaromatic and ammonium salts to be exchanged for a variety of anions using an anion exchange resin (A(-) form) in non-aqueous media. The anion loading of the AER (OH(-) form) was examined using two different anion sources, acids or ammonium salts, and changing the polarity of the solvents. The AER (A(-) form) method in organic solvents was then applied to several quaternary heteroaromatic salts and ILs, and the anion exchange proceeded in excellent to quantitative yields, concomitantly removing halide impurities. Relying on the hydrophobicity of the targeted ion pair for the counteranion swap, organic solvents with variable polarity were used, such as CH(3)OH, CH(3)CN and the dipolar nonhydroxylic solvent mixture CH(3)CN:CH(2)Cl(2) (3:7) and the anion exchange was equally successful with both lipophilic cations and anions.

Published

2014