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Seco- and solitaire porphyrazines : design, synthesis and photophysical evaluationSakellariou, Efstathia G. January 2002 (has links)
No description available.
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The application of bis(benzo)-crown ethers as multireceptorsMousley, David P. January 1995 (has links)
No description available.
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Synthesis and spectroscopic studies of novel phthalocyanines-toward new electronic absorption propertiesBakboord, Joan Vanessa January 2000 (has links)
No description available.
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Metal complexes of thiophene analogues of crown ethers and cryptandsTseki, Potlaki Foster January 1994 (has links)
No description available.
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Phenylene Ethynylene and Phenylene Imine Macrocycles As Precursors for Organic NanotubesKorich, Andrew 13 February 2009 (has links)
Single walled carbon nanotubes (SWCNTs) have unique physical, optical and electronic properties. Current production methods provide SWCNTs as a polydisperse mixture, with respect to helicity, diameter and length, and cannot be tuned to yield a discrete SWCNT isomer. A bottom up approach would yield a single SWCNT, which would allow for a better understanding of how chemical modification affects a carbon nanotube’s properties. Synthesis by this route has yet to be accomplished. Phenylene ethynylene macrocycles were synthesized by a stepwise linear fashion and cyclooligomerization. These macrocycles are Diels-Alder cycloaddition precursors for a rational synthesis of a (9,0) SWCNT segment. Additionally, these macrocycles are of interest due to their highly conjugated two dimensional networks, which gives rise to high quantum efficiency. Therefore, the optical properties of these macrocycles were studied in several of solvents. In addition, a novel reductive imination was examined and used to synthesize a series of phenylene imine macrocycles. These systems could be precursors towards organic N-doped SWCNTs by either a hetro-Diels-Alder cycloaddition or pyrrole ring formation.
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Preparing Nanotubes via Polymerization of Diacetylene Functionality Containing Carbon-based MacrocyclesXu, Jiaqi 06 November 2014 (has links)
Nanofibers and nanotubes have been extensively studied in materials science due to their extraordinary thermal conductivity, excellent mechanical and electrical properties, and their potential capability for gas storage. Their potential applications at the forefront of technology areas have attracted people???s attention.
Diacetylene functionality containing macrocycles with different frameworks have been designed and synthesized. (S)-BINOL-based building block macrocyclic ether 2.4, macrocyclic ester 2.9a and amide 2.9b have been synthesized. A single crystal was obtained for 2.9b from a THF-hexanes solvent system and X-ray data was collected while the other macrocycle 2.9a furnished gels. X-ray crystallography demonstrated that macrocycle 2.9b does not stack face-to-face, due to steric hindrance.
Planar macrocycles with carbazole and dibenzofuran as flat backbone to minimize steric hindrance have also been designed, which may increase the possibility to obtain a state of supramolecular stacking, and synthesis of some of the proposed structures was attempted. Carbazole-based tetramer building block macrocycles 3.6 (side chain free) and 3.16 (alkylated) have been successfully synthesized and characterized.
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Investigations of highly conjugated macrocycles and polymers for aggregation and chemical sensingBoden, Britta Nicole 05 1900 (has links)
With the goal of developing Schiff base macrocycles with conjugation extended over multiple aromatic rings, new phenanthrene and triphenylene-containing bis(salicylates) were synthesized. A convenient route to 3,6,9,10-tetraalkoxy-2,7-diiodophenanthrene was developed. This compound has been found to be a useful precursor for Pd-catalyzed cross-coupling reactions.
Macrocycles were synthesized by Schiff base condensation of the phenanthrene and triphenylene precursors. Reaction of smaller phenanthrene and triphenylene bis(salicylates) with 1,2-dialkoxy-4,5-phenylenediamine afforded macrocycles in poor yield and purity, but formation of the macrocycle was confirmed by mass spectrometry. Condensation of larger phenanthrene ethynylene bis(salicylates) with phenylenediamines formed [3+3] Schiff base macrocycles in good yield and could be purified through recrystallization. These two large macrocycles were weakly luminescent, and showed decrease in intensity of emission in solution over time. Addition of nitroaromatic compounds to solutions of the macrocycles caused quenching of luminescence, but Stern-Volmer constants could not be determined. One of the macrocycles aggregates in solution and shows some order in the solid state. Association constants for self-assembly of this macrocycle in chloroform were determined, and aggregation was found to be enthalpically driven and entropically disfavoured. Both large macrocycles can complex metals, but low solubility prevents thorough characterization of the metal complexes.
Phenanthrene-containing poly(phenyleneethynylene)s (PPEs) and poly(phenylenevinylene)s (PPVs) were synthesized via the Sonogashira and Heckcouplings, respectively. The PPEs had high molecular weight and both polymers were extremely luminescent with OF = 70% for the PPE and OF = 59% for the PPV. These polymers show potential for use in solar cells and nitroaromatic sensors
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Dithienylsalphen monomers were made using 4-(2-thienyl)salicylaldehyde and 5-(2-thienyl)salicylaldehyde. These monomers were coordinated to Ni(II), Cu(II) and vanadyl, and tested for electropolymerization. Conjugated dithienylsalphen monomers polymerize poorly, while non-conjugated dithienylsalphen monomers form good films through electropolymerization. Ultraviolet-visible spectroscopy confirmed extended conjugation in N,N '-phenylenebis(4-(2-thienyl)salicylideneimine).
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Investigations of highly conjugated macrocycles and polymers for aggregation and chemical sensingBoden, Britta Nicole 05 1900 (has links)
With the goal of developing Schiff base macrocycles with conjugation extended over multiple aromatic rings, new phenanthrene and triphenylene-containing bis(salicylates) were synthesized. A convenient route to 3,6,9,10-tetraalkoxy-2,7-diiodophenanthrene was developed. This compound has been found to be a useful precursor for Pd-catalyzed cross-coupling reactions.
Macrocycles were synthesized by Schiff base condensation of the phenanthrene and triphenylene precursors. Reaction of smaller phenanthrene and triphenylene bis(salicylates) with 1,2-dialkoxy-4,5-phenylenediamine afforded macrocycles in poor yield and purity, but formation of the macrocycle was confirmed by mass spectrometry. Condensation of larger phenanthrene ethynylene bis(salicylates) with phenylenediamines formed [3+3] Schiff base macrocycles in good yield and could be purified through recrystallization. These two large macrocycles were weakly luminescent, and showed decrease in intensity of emission in solution over time. Addition of nitroaromatic compounds to solutions of the macrocycles caused quenching of luminescence, but Stern-Volmer constants could not be determined. One of the macrocycles aggregates in solution and shows some order in the solid state. Association constants for self-assembly of this macrocycle in chloroform were determined, and aggregation was found to be enthalpically driven and entropically disfavoured. Both large macrocycles can complex metals, but low solubility prevents thorough characterization of the metal complexes.
Phenanthrene-containing poly(phenyleneethynylene)s (PPEs) and poly(phenylenevinylene)s (PPVs) were synthesized via the Sonogashira and Heckcouplings, respectively. The PPEs had high molecular weight and both polymers were extremely luminescent with OF = 70% for the PPE and OF = 59% for the PPV. These polymers show potential for use in solar cells and nitroaromatic sensors
.
Dithienylsalphen monomers were made using 4-(2-thienyl)salicylaldehyde and 5-(2-thienyl)salicylaldehyde. These monomers were coordinated to Ni(II), Cu(II) and vanadyl, and tested for electropolymerization. Conjugated dithienylsalphen monomers polymerize poorly, while non-conjugated dithienylsalphen monomers form good films through electropolymerization. Ultraviolet-visible spectroscopy confirmed extended conjugation in N,N '-phenylenebis(4-(2-thienyl)salicylideneimine).
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Investigations of highly conjugated macrocycles and polymers for aggregation and chemical sensingBoden, Britta Nicole 05 1900 (has links)
With the goal of developing Schiff base macrocycles with conjugation extended over multiple aromatic rings, new phenanthrene and triphenylene-containing bis(salicylates) were synthesized. A convenient route to 3,6,9,10-tetraalkoxy-2,7-diiodophenanthrene was developed. This compound has been found to be a useful precursor for Pd-catalyzed cross-coupling reactions.
Macrocycles were synthesized by Schiff base condensation of the phenanthrene and triphenylene precursors. Reaction of smaller phenanthrene and triphenylene bis(salicylates) with 1,2-dialkoxy-4,5-phenylenediamine afforded macrocycles in poor yield and purity, but formation of the macrocycle was confirmed by mass spectrometry. Condensation of larger phenanthrene ethynylene bis(salicylates) with phenylenediamines formed [3+3] Schiff base macrocycles in good yield and could be purified through recrystallization. These two large macrocycles were weakly luminescent, and showed decrease in intensity of emission in solution over time. Addition of nitroaromatic compounds to solutions of the macrocycles caused quenching of luminescence, but Stern-Volmer constants could not be determined. One of the macrocycles aggregates in solution and shows some order in the solid state. Association constants for self-assembly of this macrocycle in chloroform were determined, and aggregation was found to be enthalpically driven and entropically disfavoured. Both large macrocycles can complex metals, but low solubility prevents thorough characterization of the metal complexes.
Phenanthrene-containing poly(phenyleneethynylene)s (PPEs) and poly(phenylenevinylene)s (PPVs) were synthesized via the Sonogashira and Heckcouplings, respectively. The PPEs had high molecular weight and both polymers were extremely luminescent with OF = 70% for the PPE and OF = 59% for the PPV. These polymers show potential for use in solar cells and nitroaromatic sensors
.
Dithienylsalphen monomers were made using 4-(2-thienyl)salicylaldehyde and 5-(2-thienyl)salicylaldehyde. These monomers were coordinated to Ni(II), Cu(II) and vanadyl, and tested for electropolymerization. Conjugated dithienylsalphen monomers polymerize poorly, while non-conjugated dithienylsalphen monomers form good films through electropolymerization. Ultraviolet-visible spectroscopy confirmed extended conjugation in N,N '-phenylenebis(4-(2-thienyl)salicylideneimine). / Science, Faculty of / Chemistry, Department of / Graduate
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N-alkylated derivatives of 1,4,7-triazacyclonane and polynucleating aza derivatives of 5,5'-ylmethyl-2,2'-bipyridineJackson, Michelle L. January 1997 (has links)
No description available.
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