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21	Template Synthesis of Structure-Controlled Porphyrin Tubes and Those Inclusion and Optical Properties / テンプレート法による構造規定されたポルフィリンチューブの合成とその分子認識能ならびに光特性 Chiba, Yusuke 26 March 2018 (has links) 京都大学 / 0048 / 新制・課程博士 / 博士(工学) / 甲第21117号 / 工博第4481号 / 新制\|\|工\|\|1696(附属図書館) / 京都大学大学院工学研究科物質エネルギー化学専攻 / (主査)教授辻康之, 教授大江浩一, 教授村田靖次郎 / 学位規則第4条第1項該当 / Doctor of Philosophy (Engineering) / Kyoto University / DFAM Porphyrin Host-Guest Molecular Tube Template Synthesis 500
22	Evaluation of Apparent Formation Constants of Host-Guest Inclusion Complexes of Solutes with Soluble Calixarenes Using High Performance Liquid Chromatography Groom, Jazerie J. January 2013 (has links) No description available. Analytical Chemistry Chemistry Calixarenes HPLC host-guest chemistry
23	I. Functionalization and Investigation of Highly Efficient Hosts for Use in Macromolecular Self-Assemblies and II. The Design and Synthesis of ROMP Imidazolium Systems for Use as Mechanical Actuators Price, Terry Leon Jr. 09 June 2016 (has links) Recent advancements in supramolecular chemistry have given a wealth of strongly binding host-guest combinations. However, the deployment of these systems into meaningful constructs has been hindered due to difficulty of synthesis or to the lack of functionality in one or both components. Systems caught in this trap were the pyridyl cryptands of dibenzo-30-crown-10 and bis(m-phenylene)-32-crown-10 paired with paraquat. Exceptionally high association constants in the range of 105 to 106 have been observed for these systems, but their applications have been hindered. Easing the implementation of pyridyl cryptands based on dibenzo-30-crown-10 was made a priority. An efficient method for the synthesis of pyridyl cryptands based on dibenzo-30-crown-10 and bis(m-phenylene)-32-crown-10 made use of the salt pyridinium bis(trifluoromethane)sulfonamide (TFSI) as a template. Optimization of the pyridinium TFSI template allowed for cyclization yields as high as 89%, as well as without the use of a syringe pump. Addressing the concern of functionality, for pyridyl cryptands, chelidamic acid was targeted as a way to build in functionality. Using a chelidamic isopropyl ester, 20 new chelidamic precursors of varying functionality were synthesized. The chelidamic derivatives fell into six groups: potential covalent monomers, initiators, chain terminators, leaving groups, aryl halides and host-guest monomers. In an attempt to boost the association constants of pyridyl cryptands based on dibenzo-30-crown-10 with paraquat, alterations to the paraquat guest were explored. It was found that the association constants could be increased by nearly an order of magnitude. Tweaks to the paraquat included changing the counterion to TFSI, methyl groups to benzyl and allowing for access to more nonpolar solvents that were previously inaccessible, such as solvent change from DCM to acetone. Two new biscryptands and two new bisparaquat TFSI monomers were synthesized. Using these monomers supramolecular polymers were synthesized and characterized. Fibers of these polymers drawn from concentrated solutions were found to be flexible and one such polymer solution was found to have an upper log / log specific viscosity–concentration slope of 3.55, which is the theoretical maximum. Additionally, a biscryptand was used to produce a chain extended polymer. Using a fundamental understanding of host-guest chemistry, work was conducted on the synthesis of norbornene monomers and polymers with pendant imidazolium tethered by ethyleneoxy linkages to aid in the stabilization of the imidazolium cation. Through the use of ethyleneoxy linkages, the free anion content and conductivity was increased. Imidazolium monomer and polymer conductivities ranged up to nearly 10-4 S/cm. Furthermore, it was determined that as long as the ethyleneoxy spacer between the norbornene and imidazolium was two units or greater, similar properties were obtained for both the monomer and corresponding polymer. Expanding the work further, the imidazolium monomers were incorporated as a soft segment into a triblock copolymer to produce a single direction mechanical actuator. / Ph. D. host/guest ionomer polymer imidazolium paraquat cryptand pseudorotaxane
24	Development of novel supramolecular framework materials based on organic salts Wahl, Helene 12 1900 (has links) Thesis (PhD)--Stellenbosch University, 2014. / ENGLISH ABSTRACT: The aim of the work presented in this thesis was to design ionic organic framework materials based on carboxylate salts with the intention of engineering interesting properties, such as porosity, into these framework materials. The first section focuses on the characterisation and porosity studies of an ionic framework material, 3,4-lutidinium pamoate hemihydrate, with THF-filled channels in the solid state. It was shown that this framework is able to exchange the THF in the channels for a wide variety of compounds, with many of these exchanges occurring in a single-crystal to single-crystal fashion. Competition experiments conducted with the framework, both by immersing crystals of the framework in solvent mixtures, as well as by exposing crystals of the framework to mixtures of solvent vapours, indicated that it is able to selectively exchange for one guest over another. The kinetics of exchange of this framework were studied, and it was possible to identify a kinetic model describing this process. A second novel framework-type material, 4-phenylpyridinium pamoate, was identified during the course of this study, as well as five isostructural frameworks containing different guest molecules. In this case the framework consists of discrete units that close-pack in such a way that guest molecules are included in constricted cavities in the solid state. Although this framework-type material is not porous, it is thermally quite stable and also highly selective. It is able to selectively encapsulate 1,4-dioxane when crystallised from various solvent combinations including 1,4-dioxane. In addition, eight novel structures with pamoic acid in combination with various pyridyl derivatives were obtained. A third novel framework material was obtained with N,N'-bis(glycinyl)pyromellitic diimide in which, due to the extended hydrogen-bonded network formed between the constituents of the framework, DMF molecules are aligned in channels. It was found that this framework material can also be formed by mechanochemical synthesis, and investigation of the thermal behaviour of this framework showed that it has the potential to be porous, since the framework appears to remain intact after desolvation. Furthermore, six novel structures with N,N'- bis(glycinyl)pyromellitic diimide in combination with various N-heterocycles were obtained. All structures obtained in this study were also further analysed to determine whether there are particular structural features that are required for framework formation. Insights gained from these investigations, in terms of degree of ionisation of the anion, packing arrangements and hydrogen bonding patterns as well as the molecular shape of the components are discussed. / AFRIKAANSE OPSOMMING: Die doel van die werk wat in hierdie tesis voorgelê word is om ioniese organiese raamwerkmateriale gebaseer op karboksilaatione te ontwerp, met die voorneme om interessante eienskappe in hierdie materiale te bewerkstellig. Die eerste afdeling fokus op die karakterisering en porositeit van ‘n ioniese organiese raamwerkmateriaal, 3,4-lutidiniumpamoaathemihidraat, wat kanale gevul met tetrahidrofuraan (THF) besit. Dit is aangetoon dat dit moontlik is vir hierdie raamwerkmateriaal om die THF in die kanale te verruil vir ‘n wye verskeidenheid stowwe, waarvan baie van hierdie uitruilings geskied as ‘n enkelkristal tot enkelkristal transformasie. Kompetisie-eksperimente is met hierdie raamwerkmateriaal uitgevoer deur die kristalle in mengsels van oplosmiddels te onderdompel, sowel as deur die kristalle aan mengsels van die oplosmiddeldampe bloot te stel. Die resultate het aangedui dat dit moontlik is vir hierdie raamwerkmateriaal om een gasstof selektief teenoor ‘n ander te verruil vir die THF in die kanale. Die kinetika van die uitruilingsproses van hierdie materiaal is ook bestudeer en dit was moontlik om ‘n kinetiese model te identifiseer wat die uitruilingsproses beskryf. ‘n Tweede nuwe raamwerk-tipe materiaal, 4-fenielpiridiniumpamoaat, is deur die loop van hierdie studie geïdentifiseer, sowel as vyf isostrukturele raamwerkmateriale waarvan net die gasstof verskil. In hierdie geval bestaan die raamwerk uit diskrete eenhede wat op so ‘n wyse saampak dat die gasstowwe in vernoude porieë ingesluit word. Alhoewel hierdie raamwerk-tipe materiaal nie poreus is nie, is dit termies stabiel en ook hoogs selektief. Die raamwerkmateriaal kan selektief 1,4-dioksaan enkapsuleer wanneer dit gekristalliseer word vanuit ‘n verskeidenheid oplosmiddel kombinasies met 1,4-dioksaan. Verder is agt nuwe strukture verkry met die pamoaat ioon in kombinasie met ‘n verskeidenheid piridien-derivate. ‘n Derde nuwe raamwerkmateriaal is verkry met N,N'-bis(glisiniel)piromellitiese diïmied waarin, danksy die uitgebreide waterstofgebinde netwerk tussen die komponente van die raamwerk, die DMF molekules in kanale aangetref word. Hierdie raamwerkmateriaal kan deur meganochemiese sintese berei word en verdere ondersoek na die termiese gedrag van hierdie raamwerkmateriaal dui aan dat dit die potensiaal het om porositeit te toon, aangesien die raamwerk behoue bly nadat die DMF molekules verwyder is. Ses nuwe strukture is ook met N,N'-bis(glisiniel)piromellitiese diïmied in kombinasie met ‘n wye verskeidenheid stikstof-bevattende heterosikliese verbindings verkry. Alle strukture wat tydens hierdie studie verkry is, is verder ondersoek om te bepaal of daar spesifieke strukturele kenmerke is wat benodig word vir die vorming van raamwerkmateriale. Insigte wat verkry is vanuit hierdie ondersoeke, in terme van die graad van ionisasie van die anioon, die rangskikking van molekules in die struktuur en waterstofbindingspatrone, sowel as die molekulêre vorm van die komponente, word bespreek. Framework materials Crystal engineering Host-guest chemistry Porosity Dissertations -- Chemistry Theses -- Chemistry UCTD
25	Design and Synthesis of Novel Cage-Functionalized Crown Ethers: A New Class of Ag Complexants. Lai, Huiguo 08 1900 (has links) Three different types of cage crown ethers have been prepared and their complexation properties with Ag(I) have been studied. Atomic absorption, fluorescence quenching, and UV absorption have been used to study the interaction between the hosts (cage crown ethers) and guests (Ag+). For the cage-annulated crown ethers that contain aromatic rings, cation-π and π-π interactions may contribute significantly to the overall complexation ability of the host system. Piperazine groups may cooperate, and the piperazine nitrogen atoms provide unshared electrons, which may form a complex with Ag+. In addition, relatively soft donor atoms (e.g., Br) are well-suited for complexation with Ag+, which is a softer Lewis acid than alkali metal cations. Crown ethers. Host-guest chemistry crown ethers cage compounds fluorescence quenching atomic absorption
26	Synthesis and properties of novel cage-functionalized crown ethers and cryptands. Hazlewood, Anna 08 1900 (has links) A novel cryptand was synthesized which contained a 3,5-disubstituted-4- oxahexacyclo[5.4.1.02,6.03,10.05,9.08,11] dodecane "cage" moiety. In alkali metal picrate extraction experiments the cryptand exhibited high avidity towards Rb+ and Cs+, when compared with the corresponding model compound. A computational study of a series of cage-functionalized cryptands and their alkali metal-complexes was performed. The X-ray crystal structure of a K+-complexed bis-cage-annulated 20-crown-6 was obtained. The associated picrate anion was found to be intimately involved in stabilization of the host-guest complex. The interaction energy between the host-guest complex and picrate anion has been calculated, and the energy thereby obtained has been corrected for basis set superposition error. Crown ethers. Cyclic compounds. Host-guest interactions Selective metal cation complexation Crown ether synthesis
27	Synthesis and host-guest interaction of cage-annulated podands, crown ethers, cryptands, cavitands and non-cage-annulated cryptands. Chen, Zhibing 05 1900 (has links) Symmetrical cage-annulated podands were synthesized via highly efficient synthetic strategies. Mechanisms to account for the key reaction steps in the syntheses are proposed; the proposed mechanisms receive support from the intermediates that have been isolated and characterized. An unusual complexation-promoted elimination reaction was studied, and a mechanism is proposed to account for the course of this reaction. This unusual elimination may generalized to other rigid systems and thus may extend our understanding of the role played by the host molecules in "cation-capture, anion-activation" via complexation with guest molecules. Thus, host-guest interaction serves not only to activate the anion but also may activate the leaving groups that participate in the complexation. Complexation-promoted elimination provides a convenient method to desymmetrize the cage while avoiding protection/deprotection steps. In addition, it offers a convenient method to prepare a chiral cage spacer by introducing 10 chiral centers into the host system in a single synthetic step. Cage-annulated monocyclic hosts that contain a cage-butylenoxy spacer were synthesized. Comparison of their metal ion complexation behavior as revealed by the results of electrospray ionization mass spectrometry (ESI-MS), alkali metal picrate extraction, and pseudohydroxide extraction with those displayed by the corresponding hosts that contain cage-ethylenoxy or cage-propylenoxy spacers reveals the effect of the length of the cage spacer upon the host-guest behavior. A series of cage-annulated cryptands, cavitands and the corresponding non-cage-annulated model compounds have been synthesized. These host molecules display unusual behavior when examined by using ESI-MS techniques, i.e., they bind selectively to smaller alkali metal ions (i.e., Li+ and Na+), a result that deviates significantly from expectations based solely upon consideration of the size-fit principle. It seems likely that this behavior results from the effect of the host topology on host-guest behavior. A series of non-cage-annulated cryptands also have been synthesized. These compounds can serve as starting materials for cavitand construction. Crown ethers. Supramolecular chemistry. Cage host-guest podand crown ether cryptand cavitand
28	From supramolecular selectivity to nanocapsules Chopade, Prashant D. January 1900 (has links) Doctor of Philosophy / Department of Chemistry / Christer B. Aakeroy / A family of three 2-aminopyrazine derivatives were prepared and co-crystallized with thirty carboxylic acids. Our theoretical charge calculations and experimental results from 90 reactions demonstrated that decreasing the charge on the hydrogen-bond acceptor sites results in a decrease of the supramolecular yield (the frequency of occurrence of the desired outcome). However, synthon crossover (undesired connectivity) was observed 7/12 times and was unavoidable due to competitive binding sites present in the N-heterocyclic bases chosen. To avoid synthon crossover, we used a strategy based on geometric bias. We utilized hydrogen-bonding two-point contacts and halogen-bonding single-point contacts for supramolecular reactions with the 2-aminopyrazine family of compounds. The desired two-point contact and single-point contact (N•••I or N•••Br) appeared in 9/9 times even in the presence of other potentially interfering intermolecular interactions. In addition, the role of charge in controlling the presence/absence of proton transfer was also highlighted. To establish a hierarchy in halogen-bonding interactions we designed and synthesized a library of eight molecules equipped with two different halogen bond donors and combined with variety of halogen-bond acceptors. 11 Halogen-bonded co-crystals were obtained; however, positional disorder of I/Br atoms obscures a complete analysis. This problem was solved by introducing asymmetry in the halogen-bond donor molecules. Finally, successfully demonstrated an unprecedented hierarchy in halogen-bond interactions based on electrostatics. We developed high-yielding Suzuki-Miyaura coupling reactions of tetraboronic pinacolyl ester cavitand to iodoarenes with a range of functional groups (electron withdrawing/donating group and a heterocycle) that show robustness and versatility, making it a ‘launch pad’ for the synthesis of many new cavitands in a facile manner. We have also successfully demonstrated cavitand functionalization from tetraaldehyde to tetraoximes using ‘solvent assisted grinding’, irrespective of the position of the aldehyde. Finally, we prepared tetra-substituted pyridyl and carboxylic acid cavitands having an ellipsoidal cavity capable of encapsulating asymmetric guest molecules and was subsequently obtained the first of its kind, C[subscript]2v symmetric molecular capsule with encapsulated asymmetric guest molecule. Supramolecular chemistry Crystal engineering Intermolecular interactions Hydrogen bonding Halogen bonding Host-guest chemistry Chemistry (0485)
29	Supramolecular coordination cages based on bispyridyl-ligands with redox properties Versäumer, Marina 27 June 2016 (has links) No description available. 540 supramolecular chemistry interpenetration coordination cages redox chemistry phenothiazine anthraquinone host-guest chemistry Chemie (PPN62138352X)
30	Biomimetics and Host-Guest Chemistry Gong, Jiachang 17 December 2004 (has links) In an effort to produce the tetrahedrally coordinated, catalytically active zinc center, three families of tris(2-pyridyl)methanol derivatives were synthesized and characterized. Zinc binding studies revealed that the binding behaviors of the ligands depended on the steric and electronic properties of the substituents on the pyridyl rings, as well as the functional group on the tertiary alcohol. A novel tris-pyridyl macrocyclic receptor was synthesized. The receptor possesses both hydrogen bond donors and acceptors. NMR titration experiments revealed that the receptor simultaneously bound both ammonium cation and the counter anion. The counter anion significantly influences the association between the receptor and the ammonium cation. Chiral ditopic macrocycles, which enantioselectively bind chiral ammonium cations, have also been synthesized. Their enantioselective binding properties, as well as the ditopic recognition properties were investigated Macrocycle Tris(2-pyridyl)methanol Biomimetics Host-Guest supramolecular Carbonic Anhydrase

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