Controlling Excited State Electron Delocalization via Subtle Changes to Inorganic Molecular Structures

Kender, William Theodore

January 2018

No description available.

Chemistry

electron delocalization

ultrafast spectroscopy

ruthenium polypyridyl

quadruple bond

oxalate

Establishing the Structure Function Relationship of Polypyridyl Ruthenium and Berenil-type Compounds in the Formation of Complexes with B-DNA and/or G-quadruplex DNA

Mikek, Clinton Gregory

08 December 2017

Cancer results from the accumulation of genetic mutations in a normal cell that ultimately result in the expression (or overexpression) of oncogenes. The design of drugs having high affinity for specific DNA sequences or structural motifs is vital to gaining a better understanding of gene expression and to the development of new cancer treatments that are based on turning off oncogene expression. This dissertation presents studies of the binding of two ligand families, Berenil (DMZ), and ruthenium polypyridyl complexes (RPCs), to B-DNA and G-quadruplex (G4) DNA. The structureunction relationships for the interaction of these ligand families with DNA were probed by functional group substitution, truncation, or modification of the DMZ amidine groups, and by changing one of the RPC ruthenium ligands from phenanthroline to dipyridophenazine (dppz) or tetraazatetrapyrido-pentacene (tatpp), and lastly by adding a second Ru(Phen)2 core to the tatpp bridging ligand. Removal of one or both amidine groups from DMZ drastically reduces its binding to both B-DNA and G4-DNA. DMZ analogs in which one amidine was replaced by an alkyne group were synthesized with the expectation that the additional π-bonding character of the alkyne group would increase G4 affinity. All of the DMZ alkyne compounds were found to bind preferentially to G4-DNA (over B-DNA) and a few of these compounds demonstrated significant anticancer activity. RPCs with progressively longer ruthenium bound ligands were found to bind with differing affinities to B-DNA and G4-DNA. Monoruthenium RPCs exhibited a preference for binding to B-DNA, while binding the diruthenium RPC to G4-DNA was more complicated exhibiting both tighter and a weaker binding modes in comparison to the B-DNA complex. The diruthenium complex was found to bind more tightly to G4-DNA by approximately 3 kcal mol-1. The binding of small molecules to DNA resulting in the disruption of oncogene transcription represents a powerful approach to the treatment of cancer.

ITC

Thermodynamics

Ruthenium polypyridyl compunds

DNA/Ligand interactions

Oxygen-Sensitive Luminophores: A Survey of the Literature and Efforts toward a Novel Porphyrin-Pillared Zirconium Phosphonate

Wright, Joseph

01 January 2016

Measurement and mapping of the pressure distribution across the surface of a suitably scaled model is an integral step in the design of any aircraft or automobile. For this purpose, the traditional workhorses of the aeronautic and automotive industries have been pressure taps--small orifices that contain electronic pressure transducers. Unfortunately, in addition to the limited spatial resolution achievable with such devices, their technical complexity and cost constitute serious disadvantages. For more than 35 years, researchers have pursued a fundamentally different alternative: indirect measurement of pressure via oxygen-induced quenching of the luminescence emitted by certain chemical species. Porphyrin complexes of dipositive palladium and especially platinum have emerged as one of the principal classes of oxygen-sensitive luminophores; ruthenium(II) polypyridyl complexes comprise another. Various other metals also form luminescent coordination complexes that are susceptible to quenching by O2, however, and these too have contributed to the diversity of luminophores that are now available for incorporation into pressure-sensitive paints and related films and coatings. After treating the photophysics of luminescence quenching by molecular oxygen and quantitative descriptions of this phenomenon in the ideal case and in heterogeneous media, the thesis presents a comprehensive survey of the chemical literature on oxygen-sensitive luminophores. Efforts to prepare and characterize a novel porphyrin-pillared mixed zirconium phosphonate are then detailed. Following complexation of Pt(II) ions by the porphyrin moieties, this material is expected to display oxygen-sensitive luminescence and should ameliorate such difficulties as luminophore aggregation and matrix photodegradation that are associated with many existing pressure-responsive coatings. Its preparation necessitated preliminary formation of a porphyrin functionalized with two phenylphosphonic acid groups, which was obtained by synthesizing dipyrromethane and diethyl 4-formylphenylphosphonate and condensing these two precursors. The mixed phosphonate, a layered material assembled from ZrOCl2 · 8H2O, methylphosphonic acid, and the aforementioned porphyrin, was then prepared in refluxing HF. Solid-state 31P NMR spectra and powder X-ray diffraction patterns were acquired for the final product, its estimated interlayer spacing of 22.8 Å figuring prominently in analysis and discussion of the X-ray data.

luminophore

metalloporphyrin

pressure-sensitive paint

PSP

ruthenium polypyridyl complex

zirconium phosphonate

Chemistry

Physical Chemistry

Synthesis,Structure and Properties of Ruthenium Polypyridyl Metalloligand Based Metal-Organic Frameworks

Polapally, Mamatha

01 July 2017

Metal-organic frameworks (MOFs) have been extensively studied because of their amazing applications in gas storage, purification, photocatalysis, chemical sensing, and imaging techniques. Ruthenium polypyridyl complexes have been broadly considered as photosensitizers for the conversion of solar energy and photoelectronic materials. With this aspect, we have synthesized three new ruthenium polypyridyl based MOFs ([Ru(H2bpc)Cu(bpc)(Hbpc)2(H2O)]·5H2O (1), [Ru(H2bpc)(Fe(bpc)(Hbpc)2(H2O)2]·6H2O (2) and [Ru(H2bpc)Ni(bpc)(Hbpc)2(H2O)2]·6H2O (3)) from ruthenium(III) chloride, bpc (2,2’- bipyridine-4,4’-dicarboxylic acid) ligand, and 3d M(II) metal ions (M(II)= Cu(II), Fe(II), Ni(II)). These MOFs were synthesized under hydro or solvothermal conditions by using water, ethanol or methanol as solvents. The crystal structures of the new compounds contains zigzag chains of [Ru(bpc)3]n- complex ions linked by Cu, Fe or Ni complex ions individually. Above synthesized crystal structures were characterizing by single-crystal Xray and powder X-ray diffraction strategies, UV-vis and IR spectroscopy. Thermal properties were determining by thermogravimetric analysis. Magnetic properties were also studied.

Ruthenium polypyridyl complexes

CO2 reduction

Materials Chemistry

Polymer and Organic Materials

Structural Materials

Synthèse, caractérisation et étude de complexes à réactivité multiélectronique

Laverdière, François

January 2007

Mémoire numérisé par la Division de la gestion de documents et des archives de l'Université de Montréal.

Chimie de coordination

Photosynthèse artificielle

Conception de ligands

1,2,4,5-tétrazine

Photoproduction d'hydrogène

Ruthénium

Platine

Cobalt

Pyrimidine

Thiophène

Électropolymérisation

Luminescence

Coordination chemistry

Artificial photosynthesis

Ligand design

1,2,4,5-tetrazine

Photohydrogen production

Ruthenium polypyridyl

Platinum

Cobalt

Pyrimidine

Thiophene

Electropolymerization

Luminescence

Synthèse, caractérisation et étude de complexes à réactivité multiélectronique

Laverdière, François

January 2007

Mémoire numérisé par la Division de la gestion de documents et des archives de l'Université de Montréal

Chimie de coordination

Photosynthèse artificielle

Conception de ligands

1,2,4,5-tétrazine

Photoproduction d'hydrogène

Ruthénium

Platine

Cobalt

Pyrimidine

Thiophène

Électropolymérisation

Luminescence

Coordination chemistry

Artificial photosynthesis

Ligand design

1,2,4,5-tetrazine

Photohydrogen production

Ruthenium polypyridyl

Platinum

Cobalt

Pyrimidine

Thiophene

Electropolymerization

Luminescence