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1	Synthetic receptor molecules Lewis, R. K. January 1985 (has links) No description available. 547 Monocyclic crown ether synthesis
2	Synthesis and Physical Property Studies in Bis(crown ether)biferrocene and Polyalkylbiferrocene Cheng, Ching-Hung 28 December 2001 (has links) none biferrocene crown ether electron transfer
3	Design and synthesis of novel ligands for lanthanide complexation Fucassi, Flavia January 2000 (has links) No description available. 660 Crown ether; Metal binding; Polyether
4	Photo-active anthracene receptors for s-block and d-block metals McSkimming, Gordon January 2001 (has links) No description available. 546
5	Synthesis and Properties of Novel Cage-Annulated Crown Ethers Huang, Zilin 05 1900 (has links) Three cage-functionalized polyoxacrown ethers (9, 10 and 12) and four novel cage-functionalized polyoxamonoazacrown ethers (18, 20, 25 and 29) that contain 3,5-disubstituted-4-oxahexacyclo[5.4.0.02,6.03,10.05,9.08,11]dodecane ("oxahexacyclic") moiety have been synthesized and their respective alkali metal picrate extraction profiles along with that of three analogues 13, 14 and 21 have been obtained. The observed avidities and selectivities of the host molecules toward complexation and transport of alkali metal picrates can be related to the size and shape of their respective macrocyclic cavity and the number of donor atoms. The effect of N-alkyl substitution on the complexation properties of azacrown ethers has been studied. The avidity of N-Et azacrown ethers toward complexation with alkali metal cations is generally higher than that of the corresponding non-N-alkylated hosts. However, the presence of an N-Et group appears to have a negligible effect upon their relative selectivities in their regards. The effect of pH on extraction process was studied; it was thereby determined that the alkali metal picrate extraction experiments are best performed at high pH (ca. 11-12). Crown ethers. Cage crown ether alkali metal
6	Liquid crystal polymers containing crown ether ligands Rodenhouse, Randall Alan January 1991 (has links) No description available.
7	Synthesis and Characterization of Amphiphilic Polymers Collette, Elisabeth Anne January 2013 (has links) No description available. Polymer Chemistry Polymers amphiphilic macrocycles crown ether
8	Nova classe de porfirinas substituídas com éter coroa: Aplicação analítica e atividade catalítica na oxidação de hidrocarbonetos e do fármaco carbamazepina / New class of crowned porphyrins: analytical application and catalytic activity in the oxidation of hydrocarbons and carbamazepine drug. Silva Filho, Juvenal Carolino da 10 November 2006 (has links) Neste trabalho foi realizada a síntese, purificação e caracterização de uma tetra crowned porfirina, a 5,10,15,20-tetraquis[2-(hexaoxacicloexadecano-3-amidafenil)]-porfirina, H2TCP, bem como a correspondente ferroporfirina, (FeTCP)Cl. Foi investigado a atividade catalítica desta ferroporfirina e da ferroporfirina mono-crowned substituída, (FeMCP)Cl, sintetizada anteriormente, na oxidação dos substratos (z)-ciclooocteno, estireno, cicloexano e do fármaco carbamazepina, por vários oxidantes: iodosilbenzeno, ácido meta-cloroperbenzóico e hipoclorito de sódio, em meio homogêneo (MeOH ou ACN) e bifásico (C2H4Cl2/H2O). Os resultados revelaram que estes sistemas metaloporfirinicos podem ser considerados bons modelos biomiméticos das enzimas citocromo P450, para oxidação dos substrados estudados, levando ao mesmo produto obtido in vivo na oxidação do fármaco carbamazepina, o cabamazepina-epóxido. Os rendimentos dos produtos de oxidação catalisada pelas ferro crowned porfirinas são, na maioria dos casos, mais expressivos do que aqueles observados com as metaloporfirinas amino-substituídas precursoras. Estes resultados indicam que o substituinte éter coroa confere maior estabilidade e reatividade ao catalisador, e leva à maior seletividade, resultado da interação do éter corôa com o substrato, direcionando-o para o sítio catalítico. Uma outra propriedade importante das crowned porfirinas estudadas é sua capacidade de atuar como agente transferidor de fases nas reações em meio bifásico, utilizando hipoclorito de sódio como oxidante. Os resultados catalíticos nestes sistemas mostraram que as unidades éter corôa foram capazes de carregar o oxidante do meio aquoso para o meio orgânico, onde se encontra o substrato. Foram avaliadas também as propriedades destas novas porfirinas e metaloporfirinas em extrair íons metálicos sódio e potássio do meio aquoso para o meio orgânico. As crowned porfirinas foram bastante eficientes na extração destes metais, principalmente utilizando a técnica de extração por fase única, levando a extrações superiores a 90 % do cátion potássio, e mostrando maior seletividade para este cátion, devido ao tamanho adequado da cavidade do éter corôa para ligar este íon. Foi realizada também a caracterização das porfirinas e ferroporfirinas crowned substituídas por voltametria cíclica, visando sua aplicação futura na análise eletroanalítica de íons potássio e/ou sódio. Observou-se que as porfirinas crowned substituídas sofrem reduções mais fáceis e oxidações mais difíceis quando comparadas com as porfirinas precursoras, mostrando o efeito sacador de elétrons dos substituintes éter corôa. Estes resultados ajudam a explicar os melhores resultados catalíticos obtidos com as ferro porfirinas crowned substituídas, mostrando o efeito do éter coroa em formar a metaloporfirina mais eletrofílica e aumentando a reatividade da espécie catalítica. / In this work we carried out the synthesis, purification and characterization of a tetra crowned porphyrin, 5,10,15,20-tetrakis[2- (hexaoxacyclohexanedecane-3-amidephenyl)]porphyrin, H2TCP, and its corresponding ironporphyrin, (FeTCP)Cl. We investigated the catalytic activity of both this ironporphyrin and the previously synthesized mono-crowned substituted (FeMCP)Cl in the oxidation of the substrates Z-cyclooctene, styrene, cyclohexane and the drug carbamazepine by oxidants like iodosylbenzene, metachloroperbenzoic acid and sodium hypochlorite, in homogeneous (methanol or acetonitrile) and biphasic (C2H2Cl2/H2O) media. Our results demonstrated that these metalloporphyrin systems can be considered good biomimetic models of the cytochrome P450 enzymes in the case of the substrates studied herein, since they led to the same product obtained in the in vivo oxidation of carbamazepine, the carbamazepine-epoxide. The product yields obtained in the oxidation reactions catalyzed by the crowned ironporphyrins were, in the majority of the cases, higher than those achieved with the precursor aminosubstituted metalloporphyrins. This indicates that the crown-ether substituent renders the catalyst more stable and reactive, thus leading to higher selectivity. This selectivity results from the interaction between the crown-ether and the substrate, which directs the latter toward the catalytic site. Another important feature of the studied crowned ironporphyrins is their ability to act as phase-transfer agent in the reactions carried out in biphasic medium, using sodium hypochlorite as oxidant. The catalytic results using such a system gave evidence that the crown ether entities were capable of carrying the oxidant from the aqueous to the organic medium, where the substrate was located. We also evaluated the ability of these novel porphyrins and ironporphyrins to extract sodium and potassium ions from aqueous solution to organic medium. The crowned porphyrins were efficient at extracting these metals, especially when the one-phase extraction technique was employed, leading to potassium ion extraction as high as 90 %. The complexes were more selective toward this latter ion due to the fact that the size of the crown ether cavity was more suitable for binding the larger K+. The crowned porphyrins and ironporphyrins were also characterized by cyclic voltammetry, aiming at their future application in the electroanalytical determination of sodium and potassium ions. When compared with the precursor aminosubstituted porphyrins, we observed that the crowned porphyrins undergo reduction more easily, but their oxidation is harder to achieve. This gives evidence of the electronwithdrawing effect of the crownether substituent. These results help explain the better catalytic results obtained with the crowned ironporphyrins, showing that the crown-ether entity must render the metalloporphyrin more electrophilic, thus increasing the reactivity of the active species. crown ether éter coroa oxidação oxidation Porfirinas porphyrins
9	Design and Synthesis of HAT-core as New Materials Liao, Su-Chih 19 July 2005 (has links) The common discotic mesogen molecules are known to have a flat structure, comprising a rigid core, e.g., polynuclear aromatic structure, and a ring of four to nine flexible aliphatic side chains. We take the electron deficient heterocyclic hexaazatriphenylene (HAT) as our central core and readily synthesized by the condensation of hexaketocyclohexane with the respective 1,2-bis-alkoxy-4,5-diaminobenzene. The new molecules with electron deficient discotic liquid crystal properties are successfully. discotic liquid crystal crown ether used poly-aromatics hexaazatriphenylene
10	Crown ether Linked Aza-Triphenylene Derivatives As New Materials Shih, Wen-li 05 September 2005 (has links) The crown ether derivative application have been widely reported,but is very difficult to see by the liquid crystal primarily report. We have used dibezn-18-crown-6 as the starting material to synthesis and study their properties of liquid crystal. crown ether liquid crystals dibezo[18]crown[6] diketone

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