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Alkaline Aqueous Solution Promoted Debromination of 1,2 Dibromo-Fluorocarbons – a Convenient Method for Electron Deficient Perfluorovinyl EthersMei, Hua, McCloud, Rebecca, Ibrahim, Faisal, Nworie, Chimaroke, Musket, Anna 01 January 2017 (has links)
A facile and efficient base-mediated protocol for debromination of vic-dibromides in perfluoroalkyl(aryl) compounds in aqueous medium has been demonstrated. With mild reaction conditions, the developed strategy has a good substrate scope and electron-deficient olefin products were obtained in good yields. A mechanistic explanation of the debromination is offered with three key experimental observations: (1) the reactions are accelerated by the more electron-rich nucleophiles, (2) the reactions are promoted by the more electron poor vic-dibromides in perfluoroalkyl compounds, and (3) the nucleophilic side reaction is preventable. It is evident that the electronic factors strongly dictate vic-dibromides elimination to the perfluorovinyl ethers, which are the precursors for various perfluorinated polymers. The different reaction conditions were tested in implicit solvent (water) conditions, which helped to confirm the E2-like mechanism.
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Synthesis and Properties of Electron-Deficient Polycyclic Aromatic Compounds / 電子受容性の多環芳香族化合物の合成と性質Chaolumen 23 March 2017 (has links)
京都大学 / 0048 / 新制・課程博士 / 博士(工学) / 甲第20392号 / 工博第4329号 / 新制||工||1671(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 村田 靖次郎, 教授 近藤 輝幸, 教授 小澤 文幸 / 学位規則第4条第1項該当 / Doctor of Philosophy (Engineering) / Kyoto University / DFAM
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ULTRAFAST EXCITED STATE RELAXATION DYNAMICS OF ELECTRON DEFICIENT PORPHYRINS: CONFORMATIONAL AND ELECTRONIC FACTORSOkhrimenko, Albert N. 19 September 2005 (has links)
No description available.
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Pseudo electron-deficient organometallics: limited reactivity towards electron-donating ligandsPitto-Barry, Anaïs, Lupan, A., Zegke, Markus, Swift, Thomas, Attia, A.A.A., Lord, Rianne M., Barry, Nicolas P.E. 19 September 2017 (has links)
Yes / Half-sandwich metal complexes are of considerable interest in medicine, material, and nanomaterial chemistry. The design of libraries of such complexes with particular reactivity and properties is therefore a major quest. Here, we report the unique and peculiar reactivity of eight apparently 16-electron half-sandwich metal (ruthenium, osmium, rhodium, and iridium) complexes based on benzene-1,2-dithiolato and 3,6-dichlorobenzene-1,2-dithiolato chelating ligands. These electron-deficient complexes do not react with electron-donor pyridine derivatives, even with the strong σ-donor 4-dimethylaminopyridine (DMAP) ligand. The Ru, Rh, and Ir complexes accept electrons from the triphenylphosphine ligand (σ-donor, π-acceptor), whilst the Os complexes were found to be the first examples of non-electron-acceptor electron-deficient metal complexes. We rationalized these unique properties by a combination of experimental techniques and DFT/TDFT calculations. The synthetic versatility offered by this family of complexes, the low reactivity at the metal center, and the facile functionalization of the non-innocent benzene ligands is expected to allow the synthesis of libraries of pseudo electron-deficient half-sandwich complexes with unusual properties for a large range of applications.
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Controlled Release of Carbon Monoxide from a Pseudo Electron- Deficient Organometallic ComplexPitto-Barry, Anaïs, Barry, Nicolas P.E. 16 November 2018 (has links)
Yes / A 16-electron iridium organometallic is reacted with carbon monoxide to form an 18-electron CO-adduct. This
CO-adduct is stable for weeks in the solid state, but quickly reverts to its parent 16-e complex in tetrahydrofuran solution,
releasing CO(g). Using a simple methodology, we show that this gas can subsequently be used to perform a carbonylation
reaction on another molecule. / Royal Society; Academy of Medical Sciences/the Wellcome Trust/the Government Department of Business, Energy and Industrial Strategy/the British Heart Foundation Springboard Award
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Anticancer activity of electron-deficient metal complexes against colorectal cancer in vitro modelsAzmanova, Maria, Soldevila-Barreda, Joan J., Bani Hani, H., Lord, Rianne M., Pitto-Barry, Anaïs, Picksley, Steven M., Barry, Nicolas P.E. 26 September 2019 (has links)
Yes / An evaluation of the in vitro cytotoxicity of nine electron-deficient half-sandwich metal complexes towards two colorectal cancer cell lines (HCT116 p53+/+, HCT116 p53-/-) and one normal prostate cell line (PNT2) is presented herein. Three complexes were found to be equally cytotoxic towards both colorectal cancer cell lines, suggesting a p53-independent mechanism of action. These complexes are 12 to 34 more potent than cisplatin against HCT116 p53+/+ and HCT116 p53-/- cells. Furthermore, they were found to exhibit little or no cytotoxicity towards PNT2 normal cells, with selectivity ratios greater than 50. To gain an insight into the potential mechanisms of action of the most active compounds, their effects on the expression levels of a panel of genes were measured using qRT-PCR against treated HCT116 p53+/+ and HCT116 p53-/- cells, and cell cycle analysis was carried out. / The Royal Society grant UF150295, The Academy of Medical Sciences grant SFB003\1170
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Anions and electron-deficient aromatic ringsBerryman, Orion Boyd, 1981- 06 1900 (has links)
xx, 281 p. A print copy of this thesis is available through the UO Libraries. Search the library catalog for the location and call number. / More than two-thirds of all enzyme substrates and cofactors are anionic, emphasizing the essential role that anions play in biological processes. Moreover, anions can have detrimental effects on the environment by causing ground water contamination when anions such as perchlorate, phosphate and nitrate develop in intolerable levels. Owing to the prevalent nature of anions, traditional strategies employed to target anions--including hydrogen bonding, metal ion coordination and electrostatic interactions--have been extensively studied. An alternative approach to anion binding would complement the powerful array of existing techniques. Recently, in the supramolecular chemistry community, new insight has been cast on how anions attractively interact with electron-deficient arenes, suggesting that aromatic rings are a viable anion binding strategy to balance existing methods.
Chapter I provides a historical perspective of anions interacting with electron- deficient arenes. This outlook has its origins in the late 1800s with the discovery of colored charge-transfer complexes between donor and acceptor molecules and continues with the progression of the field leading up to the recent supramolecular fascination. Chapter II represents our initial efforts at measuring anion/arene interactions in solution. In particular, sulfonamide based hydrogen bonding receptors were developed with pendant aromatic rings to test the strength of anion/arene interactions in solution. Complementary computational chemistry and crystallography were utilized to supplement the solution studies. Chapter III describes our quantum calculations and crystallographic efforts at using only electron-deficient arenes to bind halides. A Cambridge Structure Database survey supports our emphasis of understanding multiple anion/arene interactions. Chapter IV illustrates how tripodal anion receptors can be developed to bind anions using only electron-deficient aromatic rings. Furthermore, subtle changes in anion binding geometries are observed with isomeric receptors and corroborated with Density Functional Theory calculations. Chapter V is dedicated to the preparation of electron-deficient anion receptors that are conformationally stabilized by hydrogen bonds. Chapter VI is committed to using our knowledge of anion binding to study a series of ethynyl-pyridine sulfonamides capable of hydrogen bonding to small molecules and anions. In conclusion, Chapter VII is a summary and future prospective for the field of anion/arene interactions.
This dissertation includes previously published and co-authored material. / Adviser: Darren W.
Johnson
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Redukce elektronově deficitních dendralenů hydridovými činidly / Reduction of electron-deficient dendralenes by hydride reagentsKratochvíl, Ondřej January 2021 (has links)
Charles University, Faculty of Pharmacy in Hradec Králové Department of Organic and Bioorganic Chemistry Candidate: Ondřej Kratochvíl Supervisor: prof. RNDr. Milan Pour, Ph.D. Supervisor - specialist: Mgr. Rastislav Antal Title of Thesis: Reduction of electron-deficient dendralenes by hydride reagents This diploma thesis is focused on the preparation of electron-deficient [3]dendralenes containing electron withdrawing groups such as carbonyl and ester functionalities. The synthesis is based on a palladium-catalyzed Migita-Stille coupling between stannylated diene and iodinated alkene (cycloalkene). Subsequent reaction of these substituted [3]dendralenes with hydride anion leads to a 1,2- or 1,4-addition to the α, β-unsaturated carbonyl group, resulting in the formation of an enolate or alcoholate, which are further transformed to various products depending on the type of the [3]dendralene.
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<b>The Influence of Structure on the Donor-Acceptor Properties of Metallodithiolene Complexes</b>Kyle Jefferson Colston (18812701) 03 September 2024 (has links)
<p dir="ltr">The intrinsic charge transfer properties of a given system are dictated by their electronic structure. The movement of electrons from electron rich to electron deficient moieties of a system can spur useful photophysical properties that have been utilized in the development of materials science. Such systems take advantage of redox-active ligands, which can actively participate in electron transfer, and have the versatility to function as either electron donors or acceptors in charge transfer processes. One of the most widely used family of ligands in the development of such materials is dithiolene (Dt), which can exists in two redox extremes; reduced ene-1,2-dithiolate(2-) (Dt<sup>2-</sup>) and oxidized dithione (Dt<sup>0</sup>). Dt ligands draw inspiration from the molybdenum cofactor (Moco) found in molybdenum containing enzymes that are present in all phyla of life. The Dt<sup>2-</sup> and Dt<sup>0</sup> ligands play contrasting roles in charge transfer, however, characterization of their electronic structure when both are incorporated into a coordination complex is underexplored. Detailed computational and experimental interrogation of such complexes are presented to highlight the importance of molecular and electronic structures on their charge transfer properties. Such complexes containing a Mo core are also relevant towards the comprehension of the electronic structure of Moco. This investigation focuses on the fundamental understanding of the charger transfer properties of metallodithiolene complexes containing both Dt<sup>2-</sup> and Dt<sup>0</sup> ligands, and progress towards the synthesis of the closest Moco analogs.</p>
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Development and Evaluation of Organometallic Anticancer Drug CandidatesAzmanova, Maria T. January 2022 (has links)
There is an urgent need to find novel anticancer therapeutics with different mechanisms of action than platinum-containing drugs, particularly for patients who relapse after having been initially treated with a platinum-containing chemotherapy regimen. This chemoresistance phenomena, along with the serious side effects observed with cisplatin, have led research in Medicinal Inorganic Chemistry to using other precious metals for the design of novel anticancer therapeutics. This work reports on the synthesis and characterisation of a series of organometallic drug candidates based on ruthenium, osmium, rhodium, and iridium, followed by investigation of their cancer-inhibiting properties via in vitro and in vivo studies. The cytotoxicity of these complexes against various human cancer cell lines is presented, as well as preliminary studies on their possible modes of action, determined via gene expression studies, cell cycle and apoptosis analysis, reactive oxygen species detection and mitochondrial-membrane potential assays. In addition, to confirm the surprising absence of in vitro toxicity against normal cells exhibited by some compounds, studies on ex vivo/in vitro isolated human lymphocytes from healthy individuals, have been conducted. One lead molecule has been progressed to in vivo studies in mice and toxicity and efficacy were assessed with a series of assays including determination of the maximum tolerated dose and pharmacodynamic studies. Structural modifications of the lead molecule with water-soluble phosphines were subsequently undertaken, with the aim to improve the stability and solubility of the parent 16-electron specie, and evaluations of the biological activity of these novel complexes are presented.
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