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461	Conformational analysis of some alkylgermanium and alkylmercury compounds / Vinson, Edward Francis January 1979 (has links) No description available. Chemistry Organomercury compounds Organogermanium compounds
462	Synthesis and reactivity of thioether-supported organoiron and low-valent iron complexes and cyanide-bridged binuclear complexes Mock, Michael T. January 2008 (has links) Thesis (Ph.D.)--University of Delaware, 2007. / Principal faculty advisor: Charles G. Riordan, Dept. of Chemistry & Biochemistry. Includes bibliographical references.
463	The preparation of carbene complexes from azolyl- and thienyllithium precursors. Desmet, Mieke 17 August 2012 (has links) Ph.D. / This study comprises the preparation and characterization of new carbene complexes of iron, molybdenum, gold, copper and silver from azolyl and thienyl precursors. In addition, the syntheses of aminoacyl chelate and metallacyclic iron compounds as well as unique 6-membered dimeric and 18-membered trimeric thienyl gold compounds are reported. Furthermore, di(vinyl)carbene complexes, which are not yet known for gold and which are very rare for most other metals, are also described. In contrast to most other carbene complexes that result from precursors in which the heteroatom is situated a or y to the coordinated carbon atom, the new amino(organo)-, organo(thio)- and di(organo) carbene complexes are unique in that they have been prepared from azolyl or thienyl precursors in which the nucleophilic heteroatom is located outside the coordinated ring system and is separated from the coordinated carbon by several bonds. The complex [CpFe(CO)2C1] reacts with lithiated pyrazole, (thienyl)oxazoline or (thienyl)pyridine to form precursor pyrazolyl and thienyl iron(II) compounds which upon alkylation or protonation with CF3SO3Me or CF3SO3H afford amino(organo)-, organo(thio)- or heterometallacyclic alkoxy(amino)- and hydroxy(amino)carbene complexes as well as compounds which show pyridinium character. The heterometallacyclic complexes incorporate unusual ferropyridine or ferropyrole rings. ' 3C-{'}I} NAIR data of the above compounds show that the coordinated carbons of the azolyl and thienyl ligands are significantly affected upon carbene formation, although an X-ray crystallographic investigation indicates that carbene formation has little if any effect on bond distances in the azolyl ligand when it becomes a coordinated azolinylidene. The molecular structures of the pyrazolyl complex [CpFe(C0) 2{C=CHCH=NNPh}], the pyrazolinylidene complex [CPFe(C0) 2{CCHHNHI4P11}1[CF3S03], the 2-(2'-oxazolinyl)thien- 5-ylidene complex [CpFe(C0)2{CCHHC(1\1HCMe2CH26)}1[CF3S03] and the heterometallacyclic complex [CpFe(C0){CC(=&CMe 2CH2(5)SCH---9-1)] indicate small variations in iron-carbon distances of 1.981(2), 1.969(5), 1.99(1) and 1.959(7) A. Four equivalents of 2-(4',5'-dihydro-4',4'-dimethy1-2'-oxazolinyl)thien-3-yllithium reacts with the acetate [Mo2(O2CMe)4] to form the stable, neutral, quadruply bonded dimolybdenum complex [Mo2{C=C(6=NCMe2CH26)SCH2CH2} 2(02CMe)2], while 4-methylthiazoly1 lithium reacts with the same acetate to form the unstable, thiazolyl molybdate [Mo 2{6=NCMe—Cfg} 8]4". Reaction of [AuCI(tht)] (tetrahydrothiophene) with 2-(4',5'-dihydro-4',4'-dimethy1-2'-oxazoliny1)- thien-3-yllithium or 2-(4',5'-dihydro-4',4'-dimethy1-2'-oxazolinyl)thien-5-yllithium afforded dimeric and trimeric thienyl oligomers of gold(I). The molecular structure of the six-membered dimeric compound [Au{C=C(=NCMe 2CH2O)SCH=CH}li shows a Au...Au separation of 2.8450(6)A, while such interactions are absent in the trimeric compound [Au{C=C(C=NCMe2CH2O)SCH=CH}] 3 . Protonation of the former compound as well as the stable monomers obtained from [Au(tht)C 6F5] or [Au(Cl)PPh 3J afforded unique di(vinyl)carbene as well as imine complexes. Reaction of 2-(2'-pyridyl)thien-5-yllithium with [Au(COPPh 3] and subsequent alkylation yields an organo(thio)carbene compound. Finally, a series of cationic copper(I) bis(carbene) complexes were formed upon sequential treatment of copper(I) trifluoromethanesulfonate with thiazolyl- or pyrazolyllithium and CF3SO3Me. A similar reaction with 4-methylthiazol-2-yllithium and silver triflate produced the first amino(thio)carbene complex of silver. Carbenes (Methylene compounds) Iron compounds Gold compounds Molybdenum compounds Silver compounds Copper compounds
464	Synthesis and reactivity of carbene complexes of iron, ruthenium and osmium porphyrins Li, Yan, 李艷 January 2004 (has links) published_or_final_version / Chemistry / Doctoral / Doctor of Philosophy Ruthenium compounds. Iron compounds. Complex compounds. Porphyrins. Osmium compounds.
465	Silicon-Hydrogen (Si-H), Aryl-Fluorine (Aryl-F) and Carbon-Carbon (C-C) bond activations by Iridium Porphyrin complexes. / CUHK electronic theses & dissertations collection January 2010 (has links) Please refer to dissertation for diagrams. / Part I describes the silicon-hydrogen bond activation (SiHA) of silanes with both electron-deficient iridium porphyrin carbonyl chloride (Ir(ttp)Cl(CO)) and electron-rich iridium porphyrin methyl (Ir(ttp)Me) to give iridium(III) porphyrin silyls (Ir(ttp)SiR3). Firstly, Ir(ttp)SiR3 were synthesized in moderate to good yields conveniently from the reactions of Ir(ttp)Cl(CO) and Ir(ttp)Me with silanes, via SiHA in solvent-free conditions and non-polar solvents at 200°C. Base facilitated the SiHA reaction even at lower temperature of 140°C. Specifically, K3PO4 accelerated the SiHA with Ir(ttp)Cl(CO), while KOAc promoted the SiHA by Ir(ttp)Me. Mechanistic experiments suggest that Ir(ttp)Cl(CO) initially forms iridium porphyin cation (Ir(ttp)+), which then reacts with silanes likely via heterolysis to give iridium porphyrin hydride (Ir(ttp)H). Ir(ttp)H further reacts with silanes to yield Ir(ttp)SiR3. On the other hand, Ir(ttp)Me and Ir(ttp)SiR3 undergo either oxidative addition (OA) or sigma-bond metathesis (SBM) to form the products. In the presence of base, a penta-coordinated silicon hydride species likely forms and reacts with Ir(ttp)Me to form iridium porphyrin anion (Ir(ttp) -) that can further react with silane to yield Ir(ttp)H after protonation. Ir(ttp)H finally reacts with excess silane to give Ir(ttp)SiR 3. / Part II describes successful base promoted aromatic carbon-fluorine (C-F) and carbon-hydrogen (C-H) bond activation of fluorobenzenes in neat conditions to give the corresponding iridium(III) porphyrin aryls (Ir(ttp)Ar) at 200°C in up to 95% yield. Mechanistic studies suggested that Ir(ttp)SiEt3 is firstly converted to Ir(ttp)- in the presence of KOH. Ir(ttp)- cleaves the aromatic C-F bond via an S NAr process. As the reaction proceeds, a hydroxide anion can coordinate to the iridium center of Ir(ttp)Ar to form an iridium porphyrin trans aryl hydroxyl anion (trans-[ArIr(ttp)OH]-). In the presence of water, trans-[ArIr(ttp)OH]- can give Ir(ttp)OH and ArH. Ir(ttp)OH then undergoes aromatic C-H bond activation reaction to give Ir(ttp)Ar'. Furthermore, the aromatic C-F bond activation products were found as the kinetic products, and aromatic C-H bond activation products were the thermodynamic ones.* / Part III describes the successful C(C=O)-C(alpha) bond activation of acetophenones by high-valent iridium porphyrin complexes (Ir(ttp)X, X = Cl(CO), (BF4)(CO), Me) in solvent-free conditions at 200°C to give the corresponding iridium porphyrin benzoyls (Ir(ttp)COAr) in up to 92% yield. Mechanistic studies suggest that Ir(ttp)X reacts with acetophenones to give alpha-CHA product as the primary product, which can re-convert back to the active intermediate Ir(ttp)OH or Ir(ttp)H in the presence of water formed from the concurrent iridium-catalyzed aldol condensation of acetophenones. Then Ir(ttp)OH cleaves the aromatic C-H bonds to produce the aromatic CHA products, which are more thermally stable than the alpha-CHA product. Both Ir(ttp)H and Ir(ttp)OH were the possible intermediates to cleave the C(C=O)-C(alpha) bond to give thermodynamic products of Ir(ttp)COAr. On the other hand, only Ir(ttp)(BF 4)(CO) can react with the aliphatic ketones, likely due to the stronger Lewis acidity and the HBF4 generated in catalyzing the aldol condensation of aliphatic ketones to facilitate the formation of Ir(ttp)OH and Ir(ttp)H.* / The objectives of the research focus on the bond activation chemistry by iridium porphyrin complexes with three organic substrates, (1) hydrosilanes (HSiR3), (2) fluorobenzenes (C6HnF6-n , n = 0--6), and (3) aromatic or aliphatic ketones (RCOR, R = alkyl or aryl). / Li, Baozhu. / Adviser: Kin Shing Chan. / Source: Dissertation Abstracts International, Volume: 72-01, Section: B, page: . / Thesis (Ph.D.)--Chinese University of Hong Kong, 2010. / Includes bibliographical references. / Electronic reproduction. Hong Kong : Chinese University of Hong Kong, [2012] System requirements: Adobe Acrobat Reader. Available via World Wide Web. / Electronic reproduction. Ann Arbor, MI : ProQuest Information and Learning Company, [200-] System requirements: Adobe Acrobat Reader. Available via World Wide Web. / Abstracts in English and Chinese. Activation (Chemistry) Carbon compounds Chemical bonds Organic compounds--Synthesis Organofluorine compounds Organoiridium compounds Porphyrins Silane compounds
466	New aspects of organometallic chemistry / by Michael Lloyd Williams Williams, Michael Lloyd January 1985 (has links) Bibliography: leaves 204-208 / 208 leaves : ill ; 30 cm. / Title page, contents and abstract only. The complete thesis in print form is available from the University Library. / Thesis (Ph.D.)--University of Adelaide, 1985 547.05 19 Carbonyl compounds. Complex compounds. Organometallic compounds. Organoruthenium compounds. Organoosmium compounds.
467	Sintese en karakterisering van nuwe amino(tio)karbeenkom[p]lekse van goud(I), goud(III) en koper(I) Olivier, Pierre Jacobus 02 April 2014 (has links) M.Sc. (Chemistry) / Please refer to full text to view abstract Organometallic compounds Organogold compounds Organocopper compounds Amino compounds Carbenes (Methylene compounds)
468	Preparation of the first isothiazolinylidene complexes of Fe, W and Au Desmet, Mieke Ann 21 July 2014 (has links) M.Sc. / Please refer to full text to view abstract. Organotungsten compounds Organoiron compounds Organogold compounds Carbenes (Methylene compounds) Amino compounds
469	Structure, photophysical and theoretical studies of polynuclear CU(I),AG(I) and AU(I) metal complexes Chan, Chi-keung, 陳志強 January 1997 (has links) published_or_final_version / Chemistry / Doctoral / Doctor of Philosophy Copper compounds - Analysis. Silver compounds - Analysis. Gold compounds - Analysis.
470	Non-covalent weak interactions in group IV, PT(II) and AU(I) organometallic complexes: synthesis,structures and properties Kui, Chi-fai., 居智輝. January 2005 (has links) published_or_final_version / abstract / Chemistry / Doctoral / Doctor of Philosophy Platinum compounds - Synthesis. Gold compounds - Synthesis. Organometallic compounds - Synthesis. Ligands.

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