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51	Synthesis and Alkali Metal Extraction Properties of Novel Cage-Functionalized Crown Coronands and Cryptands McKim, Artie S. 08 1900 (has links) A novel crown ether precursor was developed in which a rigid 4-oxahexacyclo (5.4.1.26.3,10.05,9.08,11) dodecyl cage moiety ("cage functionality") was incorporated. alkali metal coronands crown ethers cryptands organic chemistry Cyclic compounds. Ethers.
52	Enhanced Architectural and Structural Regulation Using Controlled Free Radical Polymerization Techniques; Supramolecular Assemblies: Pseudorotaxanes and Polypseudorotaxanes Jones, Jason William 24 April 2001 (has links) Due in large part to the growth and development of reliable surface characterization techniques, as well as to advances in the physical and chemical techniques used to modify surfaces, the technology of surface modification has seen rapid expansion over the past two decades. A major thrust of this research is the growth of controlled/"living" polymeric brushes from the surface of various substrates, an advance that promises to be a facile and reproducible way of altering surface properties. A unique initiator bearing ATRP (atom transfer radical polymerization), cleavage, and condensation functionalities was prepared and attached to the hydrolyzed surface of silica gel. Preliminary results indicate that control of reversibly terminated grafts of varying degrees of polymerization with polydispersity indices approaching 1.5 can be readily achieved-significant findings in the quest to design desired surface characteristics. Important physical characteristics may also be altered by way of varying molecular topologies. In the second major research thrust, the use of self-assembly to construct such topologies in the form of pseudorotaxanes fashioned from diverse macrocycles with multifarious guest ions is discussed. While the underlying goal was to investigate and understand the mode of complexation based on such environmental factors as substituent affects and neighboring group influences, new insight was gained on the synthetic manipulation of cooperative events-events that freely occur in nature. The complexation behavior of several functionalized bis-(meta-phenylene)-32-crown-10 macrocycles with various paraquat guest moieties was. As expected, studies indicated that electron-donating substituents on the crown ether drive association, a likely result of increased p -p interactions among host and guest species. The association between a bicyclic macrocycle and dimethyl paraquat was also investigated. Not surprisingly, binding of paraquat by the bicyclic was much stronger than the binding found in analogous macrocycles. Lastly, the endgroup functionalization of poly(propyleneimine) dendrimers with two crown ether macrocycles was performed and the complexation with host-specific guests studied. Curiously, two extreme binding regimes were found: the larger 32-membered crown ether assembly displayed anti-cooperative behavior upon complexation with paraquat, while the smaller 24-membered macrocyclic system exhibited cooperative effects with 2o ammonium ions. These cooperative results are among the very first described for non-biological systems and hint at their potential use in developing highly efficient, synthetically designed supramolecular systems. / Master of Science Allosteric Interactions Cryptands Self-Assembly Pseudorotaxanes Surface Modification Controlled Radical Polymerization Association Constants Crown Ethers Dendrimers
53	Benzo- et naphtopyranes annelés par des éthers couronnes : synthèse, photochromisme et pouvoir complexant vis-à-vis des cations métalliques et des acides aminés / Crown ether annelated benzo- and naphtopyrans : synthesis, photochromism, and coordination ability towards metal cations and amino acids Paramonov, Sergey 19 November 2010 (has links) Les chromènes photochromiques sont largement utilisés dans les technologies modernes en raison de leur capacité à changer les propriétés sous irradiation UV. Les chromènes présentés dans ce travail possèdent en outre des fragments pouvant participer à la coordination avec des cations métalliques, acides aminés, ou de l'ADN. Pour ce type de molécule, l'interdépendance éventuelle entre les propriétés photochromiques et complexantes permet d'envisager soit le photo-contrôle de la complexation, soit la modulation du photochromisme par le biais de coordination.Ce travail est divisé en deux parties : la première est consacrée à la préparation des molécules cibles et la seconde à l'étude de la complexation. Les approches synthétiques élaborées ont permis d'obtenir une série de nouveaux chromènes annelés par des éthers couronnes de taille et de composition hétéroatomique différentes. Le processus de complexation de certains dérivés a été étudié en détail par spectroscopie RMN et absorptionUV-Visible. Il a été établi que la nature des cations métalliques détermine la stoechiométrie du complexe formé ainsi que la structure spatiale. Pour tous les composés étudiés, la complexation affecte les paramètres photochromiques notamment la vitesse de décoloration. En ce qui concerne la complexation des chromènes synthétisés avec les acides aminés protonés, il a été établi qu'en fonction de la longueur de chaine de ces acides, la formation de complexe mono- ou ditopique est favorisée.De plus, l'interaction d'un nouveau chromène cationique avec l'ADN a été étudiée. Il a été constaté que contrairement à la forme initiale, la forme colorée de ce composé générée sous irradiation UV permet l'intercalation au sein de l'ADN / Photochromic chromenes are widely used in modern technologies due to their abilityto change their properties upon UV irradiation. The chromenes presented in this work alsopossess fragments able to participate to the coordination with metal cations, amino acids, orDNA. These properties may sustain mutual influence on each other resulting in either photocontrolof complexing ability or photochromism tunable by complex formation.This work is divided in two parts, one devoted to the synthesis of the targetcompounds and the second to study on the complexing ability of the substances,respectively. Thus, the synthetic approaches to photochromic benzo- and naphthopyrans,annelated to the crown ether moieties of different size and heteroatomic composition, weredeveloped. The complex formation of several chromenes with metal cations wasinvestigated by means of UV-Vis absorption and NMR spectroscopies. The metal cationnature was found to determine the stoichiometry of the complexes as well as their spatialstructure. The complex formation was found to affect the photochromic properties of thecompounds, especially the bleaching rate. Investiga.on of complexation of the chromeneswith protonated amino acids revealed that, depending on the length of the carbon chain ofthe acid used, mono- or ditopic complexes may be formed.The interaction of the new chromene, possessing a positively charged group, with DNAwas also studied. In contrast to the initial form, the photo-induced colored form was foundto intercalate with DNA. Chromènes Photochromisme Éthers couronnes Complexation Acides aminés Cations métalliques Chromenes Photochromism Crown ethers Complex formation Amino acids Metal cations
54	Self Assembly at the Liquid Air Interface Petru, Niga January 2010 (has links) The aim of this work is to study the interfacial properties of amphiphilic compounds at the liquid–air interface in an attempt to develop a comprehensive understanding of their orientation as well as the influence of their interaction with the solvent on the interfacial layer properties. Using Vibrational Sum Frequency Spectroscopy (VSFS) as the main tool, the molecular structure of the amphiphilic layer and the amphiphile–solvent relation can be illuminated in great detail – it is arguably the most sensitive surface spectroscopy currently available. Due to its second order nature, the VSFS technique is capable of distinguishing molecules at the interface even in the presence of a vast excess of similar molecules in the bulk.Ionic liquids (Ils) form a class of solvent which are increasingly receiving attention as ``green solvents´´. Some of these, such as ethyl ammonium nitrate (EAN), a protic IL, have the capacity to hydrogen bond extensively which is one of the important features they share with water. Since the interaction with solvent is an important consideration for self assembly and it is known that surfactant self assembly in the EAN bulk is analogous to in water, it was considered of interest to probe self assembly at EAN–air interface. To this end the interfacial structure of the pure EAN interface was probed, as was the conformation and ordering of nonionic surfactants. These studies reveal that EAN is highly ordered at the interface, exposing the ethyl moiety to the gas phase. Additionally, polarization studies have enabled the average orientation of the ethyl group to be determined. Adsorption of nonionic surfactants at the interface appears to significantly displace the EAN from the interface. The headgroup of the surfactant, a linear ethylene oxide group, appears to be highly disordered.The disorder of the linear ethylene oxide groups has led to difficulties in their surface spectroscopic fingerprinting in this and other works. In an attempt to study the interfacial behaviour of ethylene oxide and the temperature dependence of its hydration, closed loop structures of PEO attached to hydrophobic groups were also probed. This essentially locks their conformation. Such molecules are known as crown ethers and display interesting interfacial behaviour and also the ability to bind cations. The presence of even small amounts of adsorbed crown ethers at the water interface is shown to considerably perturb the water structure. The NO, CN, COC and CH vibrational modes of these compounds at the air-water interface as well as OH vibrational modes of the surface water hydrating this compound have been targeted in order to obtain molecular information about arrangement and conformation. The CH2 vibrational modes of crown ethers have been identified and found to be split due to their interaction with ether oxygen. The spectra provide evidence for the existence of a protonated crown complex moiety at the surface leading to the appearance of strongly ordered water species. The orientation of Nitrobenzo crown (NB15C5) was monitored as a function of solution concentration, by targeting the ratio of peak intensities of the CN and NO2 vibrational modes. The water of hydration has also been probed as a function of crown concentration, salt concentration, and temperature. The latter study strongly suggests that the surface can be treated as a charged interface, and that the associated ordered water decreases with increasing ionic strength of the bulkFinally, insoluble monolayers of fatty acids spread on a water surface have also been studied in an effort to further understand the relationship between molecular architecture and film structure. Fatty acid (Arachidic Acid – AA and Eicosenoic Acid – EA) monolayers are compared to investigate the effect on the monolayer structure of introducing unsaturation into the alkyl chain. For AA, at very large area per molecule, floating domains of crystalline nature exist rather than any classical gaseous phase. The measured conformational disorder in EA decreases continuously with monolayer compression and no crystalline domains are observed at low density. Addition of NaCl to the subphase does not affect the monolayer order for either of the compounds; instead, a dramatic increase in the signal of the water hydrating the headgroups is observed. The effect of introducing further unsaturations (up to three) was also studied in order to probe the resulting interfacial structure. Remarkably the double bonds appear to adopt the same orientation, irrespective of how many they are in the chain. By monitoring the vinyl CH stretch it was possible to study the film stability towards oxidative degradation and it was found that all three unsaturated species studied showed rapid degradation. The rate of degradation could be controlled by adjusting the film pressure. However, the monolayers could be stabilised by performing the experiments in an inert nitrogen atmosphere. / QC20100629 VSFS SFG interface crown ethers ethylene oxides ionic liquids fatty acids domains. Surface and colloid chemistry Yt- och kolloidkemi
55	Pseudorotaxanes and Supramolecular Polypseudorotaxanes Based on the Dibenzo-24-Crown-8/Paraquat Recognition Motif Huang, Feihe 06 November 2003 (has links) The research presented in this thesis focused on pseudorotaxanes and supramolecular polymers based on a new recognition motif, the dibenzo-24-crown-8/paraquat recognition motif. Main kinds of pseudorotaxanes and rotaxanes and various protocols used for the study of them were discussed first. By preparation and characterization of a series of pesudorotaxanes based on DB24C8 and paraquat derivatives, it was found that these complexes were stabilized by N+...O interactions, C-H...O hydrogen bonding, and face-to-face p-stacking interactions. Because methyl protons of paraquat are involved in hydrogen bonding to the host, the substitution of any methyl hydrogen on paraquat causes apparent association constant of the pseudorotaxane to decrease. The concentration dependence of apparent association constants, Ka,exp, of fast exchange host-guest systems was studied for the first time by using complexes based on viologens and crown ethers as examples. While the bis(hexafluorophosphate) salts of paraquat derivatives are predominantly ion paired in acetone (and other low dielectric constant solvents presumably) the complex based on dibenzo-24-crown-8 and paraquat is not ion paired in solution, resulting in concentration dependence of Ka,exp. However, four complexes of two different bis(m-phenylene)-32-crown-10 (BMP32C10) derivatives and bis(p-phenylene)-34-crown-10 (BPP3C10) with viologens are ion paired in solution, as shown by the fact that Ka,exp is not concentration dependent for these systems involving hosts with freer access to bound guests. X-ray crystal structures support these soluton-based assessments in that there is clearly ion pairing of the cationic guest and its PF6- counterions in the solid states of the latter four examples, but not in the former. The complexes based on the new dibenzo-24-crown-8/paraquat recognition motif are thus different from the complexes based on two old recognition motifs: the BPP34C10/BMP32C10-paraquat and DB24C8-ammonium motives. In order to compare these recognition motives further, the selectivity between two hosts, DB24C8 and BPP34C10, and two guests, dimethyl paraquat and dibenzyl ammnonium salt, was discussed. By individual and competitive complexation studies, it was demonstrated that DB24C8 is a better host than BPP34C10 for paraquat, and that paraquat is a better guest than dibenzyl ammonium salt for DB24C8. Finally the DB24C8-paraquat recognition motif was successfully applied in the preparation the first star-shaped supramolecular polymer based on a tetraparaquat guest and a DB24C8 functionalized polystyrene oligomer. A model system based on this guest and DB24C8 was also studied for comparison. It was found that the complexation in these two systems is cooperative, as are most biological complexations of multitopic species. Due to the ready availability of DB24C8 and paraquat derivatives, the new recognition motif should prove to be very valuable for self-assembly of other more sophisticated supramolecular systems. / Master of Science Ion Pairs Association Constant X-ray Crystal Structure Dibenzo-24-Crown-8 Polypseudorotaxane Paraquat Cooperative Complexation Crown Ethers Pseudorotaxane
56	Chemistry Of Thio And Seleno Metallates In Organic Synthesis Saravanan, V 06 1900 (has links) Thio metallates are known for many years for their utility in many processes. They have been established as versatile reagents in organic synthesis. However the heavier metal chalcogenides, though known for many years, have been ignored for a long time. In this thesis the results of the development of tetraethylammonium tetraselenotungstate [EttN]2Wse4 1 as a new class of selenium transfer reagent have been described. The thesis also deals with the chemistry of benzyltriethylammonium tetrathiomolybdate, [BnEt3N]2MoS4,2 in the synthesis of diselenides and thio esters. The thesis entitled "Chemistry of Thio and Seleno Metallates in Organic Synthesis" is divided into four Chapters. Chapter 1 In this chapter a detailed studies of alkylation of tetraethylammonium tetraselenotungstate (EuN)2WSe4,1 with a variety of alkyl halides, benzylic halides and acyl halides to yield the corresponding diselenides in excellent yields are described. (structural Formula) Scheme 1 Various carbohydrate-derived diselenides were also prepared by treating the sugar bromides with tetraethylammonium tetraselenotungstate 1 (Scheme 2). An attempt was made to synthesize seleno lactones from co- bromo acyl halides. This reaction mainly furnished the corresponding diacyl diselenides (Scheme 3). The reaction of 1 with aryldiazonium tetrafluoroborates led to the formation of corresponding diselenides or mono selenides depending on the substitution on the aromatic ring (Scheme 4). (structural formula) Scheme 2 (structural formula) Scheme 3 (structural formula) Scheme 4 Chapter 2 In this chapter a general methodology for the formation of the diselenide bond has been extended to the synthesis of a number of redox- switched crown ethers of various ring size using the reagents tetraethylammonium tetraselenotungstate (Et4N)2WSe4 t 1 and benzyltriethylammonium tetrathiomolybdate, [BnEt3NJ2MoS4,2 (Scheme 5). (structural formula) Scheme 5 The association constants for the binding of silver and potassium ions with the diselena crown ethers were determined. This methodology is very useful for obtaining selenacrown ethers under very mild conditions and also without using high dilution conditions. Chapter 3 In this chapter a general methodology for the facile conversion of amides and lactams to the corresponding seleno amides and selenolactams is described. A number of amides and lactams were converted into their selenocarbonyl derivatives in excellent yield via the formation of Vilsmeier intermediates followed by treatment with tetraethylammonium tetraselenotungstate (EuN^WSe4,1 (Scheme .6). (structural formula( Scheme 6 Chapter 4 In this chapter, a general method for the synthesis of thioesters is described. The reaction of p- nitrophenyl esters and disulfides with benzyltriethylammonium tetrathiomolybdate (PhCH2NEt3)2MoS4,2 furnished the corresponding thio esters in good yield (Scheme (7). The intramolecular version of this reaction furnished dimeric thiolactones as the major product (Scheme 8) (structural formula) Scheme 7 (structural formula) Scheme 8 (for structural formula pl see the original document) Diorganyl Diselenides - Synthesis Selena Crown Ethers - Synthesis Seleno Amides - Synthesis Thioesters - Synthesis Thio Metallates Seleno Metallates Tetraethylammonium Tetraselenotungstate Thio Esters Organic Chemistry
57	Macrocyclic chemistry: Part I - Characterization of a mixed-valence di-iron complex and synthesis of a new poly-iron complex. Part II - Synthesis, characterization of new diphosphoester macrocyclic polyethers Hoang, Son Xuan 01 January 2011 (has links) (PDF) Our research involved two projects: Crown Aza and Crown ether. Crown Aza are compounds that have nitrogens as the hetero-atoms in the macrocycle. In the first aim, the 1 H NMR spectrum of strongly-coupled di-iron complexes shows 5 different conformations, but is unable to identify these conformers. Calculation using Density Functional Theory (DFT) were performed to attempt to quantify these conformers to correlate with the experimental NMR data. The second aim of this study was to utilize the carbonyl functional group of the macrocycles to couple the iron complexes to obtain tetramers or higher oligomers. Visible spectra of the selective reduction of iron mono-keto-macrocycles with boron trifluoride and triethylsilane showed a coupling reaction to form a di-iron complex. A mixture of iron mono-keto-macrocycic with iron diketo-dimacrocycle showed a new species with an intense NIR absorption at 1010 nm. This intense band at 1010 nm is extremely rare in transition metal compounds and is of potential interest in photodynamic therapy. This indicates a new species is formed with a very low energy gap between the ground and excited states. Our second interest is in ionizable crown ethers that have many potential applications from environmental to medical. These macrocyclic poly-ethers contain phosphorous and oxygen atoms which produce a charged moiety in the ring to form a neutral complex with our targeted ions. They are significantly different from all ionizable cyclic poly-ethers in the literature. They vary in ring size from 16-crown-6 to 22-crown-8 using ethylene or propylene linkages between the oxygen atoms. Theoretical calculations revealed these ionizable crown ethers can accommodate ions from 2.6 angstroms to 4.2 angstroms in diameter. Strontium 90 ( 90 Sr 2+ ) is a radioactive product ion from nuclear fission reactions. The Phosphorous containing macrocyclic poly-ether with 2 charges could form complexes with Strontium and are possible candidates for clean-up agents of radioactive materials. The synthesis of ionizable crown ethers is discussed. Analytical chemistry Inorganic chemistry Organic chemistry Pure sciences Crown ethers Diphosphoesters Iron macrocycles Nanowires Chemicals and Drugs Chemistry Medical Pharmacology Medicinal-Pharmaceutical Chemistry Medicine and Health Sciences Pharmaceutical Preparations Pharmacy and Pharmaceutical Sciences Physical Sciences and Mathematics
58	Folding control in ortho-phenylenes through guest binding and chiral induction Peddi, Sumalatha 02 August 2022 (has links) No description available. Chemistry Organic Chemistry Physical Chemistry Organic chemistry physical organic chemistry foldamers aromatic foldamers ortho-phenylenes host-guest crown ethers titration macrocyclic compounds NMR conformational analysis imides chiral induction in foldamers twist sense biasing helical handedness

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