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31	Preparation and characterization of highly soluble and non aggregated metallophthalocyanines. January 2002 (has links) by Chi-Hang Lee. / Thesis (M.Phil.)--Chinese University of Hong Kong, 2002. / Includes bibliographical references (leaves 71-80). / Abstracts in English and Chinese. / ABSTRACT --- p.i / ACKNOWLEDGMENT --- p.iv / TABLE OF CONTENTS --- p.v / LIST OF SCHEMES --- p.vii / LIST OF FIGURES --- p.viii / LIST OF TABLES --- p.x / ABBREVIATIONS --- p.xi / Chapter 1 --- Introduction --- p.1 / Chapter 1.1 --- Discovery of Phthalocyanines --- p.1 / Chapter 1.2 --- Synthesis of Phthalocyanines --- p.4 / Chapter 1.2.1 --- Metal-Free Phthalocyanines --- p.4 / Chapter 1.2.2 --- Metallophthalocyanines (MPcs) --- p.5 / Chapter 1.2.3 --- Sandwich Complexes (MPc2) --- p.7 / Chapter 1.2.4 --- Tetra-Substituted Phthalocyanines --- p.8 / Chapter 1.2.5 --- "2,3,9,10,16,17,23,24-Octa-substituted Phthalocyanines" --- p.11 / Chapter 1.2.6 --- "1,4,8,11,15,18,22,25-Octa-substituted Phthalocyanines" --- p.12 / Chapter 1.3 --- Mechanism for Phthalocyanine Formation --- p.14 / Chapter 1.4 --- Purification of Phthalocyanines --- p.16 / Chapter 1.5 --- Characteristics of Phthalocyanines --- p.17 / Chapter 1.5.1 --- Electronic Structure --- p.17 / Chapter 1.5.2 --- Absorption Spectra --- p.17 / Chapter 1.5.3 --- X-Ray Diffraction Studies --- p.19 / Chapter 1.6 --- Applications of Phthalocyanines --- p.20 / Chapter 1.6.1 --- Colorants --- p.20 / Chapter 1.6.2 --- Photodynamic Therapy --- p.21 / Chapter 1.6.3 --- Catalysis --- p.22 / Chapter 2 --- Results and Discussion --- p.23 / Chapter 2.1 --- "Preparation, Spectroscopic Properties, and Structure of Phthalocyanines Substituted with Four 2,4-Dimethyl-3- pentyloxy Moieties" --- p.23 / Chapter 2.1.1 --- Synthetic Studies --- p.24 / Chapter 2.1.2 --- UV-Vis Spectra --- p.28 / Chapter 2.1.2.1 --- Effects of Metal Center --- p.28 / Chapter 2.1.2.2 --- Effects of Substituents --- p.30 / Chapter 2.1.2.3 --- Effects of Concentration --- p.30 / Chapter 2.1.2.4 --- Absorption Spectra of MnClPc(OC7H15)4 (10) --- p.34 / Chapter 2.1.3 --- 1H NMR Spectra --- p.35 / Chapter 2.1.4 --- Structural Studies --- p.38 / Chapter 2.1.4.1 --- Molecular Structures of ZnPc(OC7H15)4 (3) and CoPC(OC7H15)4 (5) --- p.39 / Chapter 2.1.4.2 --- Molecular Structure of MnClPc(OC7H15)4 (10) --- p.41 / Chapter 2.2 --- Formation and Crystal Structures of Novel Inclusion Complexes of Phthalocyanines and Oxalic Acid --- p.43 / Chapter 2.2.1 --- 1:1Complex with Metal-free Phthalocyanine (8) --- p.43 / Chapter 2.2.2 --- 1:1Complexes with Palladium Phthalocyanine (4) --- p.49 / Chapter 2.2.3 --- Conclusion --- p.51 / Chapter 2.3 --- Cerium Promoted Formation of Metal-Free Phthalocyanines --- p.52 / Chapter 2.3.1 --- Introduction --- p.52 / Chapter 2.3.2 --- Preparation of Metal-free Phthalocyanines --- p.52 / Chapter 2.3.3 --- Conclusion --- p.58 / Chapter 3 --- Experimental --- p.59 / Chapter 3.1 --- General --- p.59 / Chapter 3.2 --- "Synthesis of 3-(2,4-dimethyl-3-pentyloxy)phthalonitrile (2)" --- p.60 / Chapter 3.3 --- "Synthesis of ZnPc(OC7H,5)4 (3 and 6)" --- p.61 / Chapter 3.4 --- Synthesis of PdPc(OC7H15)4 (4 and 7) --- p.62 / Chapter 3.5 --- Synthesis of CoPc(OC7H15)4 (5) --- p.64 / Chapter 3.6 --- Synthesis of H2Pc(OC7H15)4 (8) --- p.64 / Chapter 3.7 --- Synthesis of MnClPc(OC7H15)4 (10) --- p.66 / Chapter 3.8 --- General Procedure for the Cerium-Promoted Cyclization of Phthalonitriles --- p.67 / Chapter 3.9 --- X-ray Crystallographic Analyses --- p.69 / Chapter 4 --- REFERENCES --- p.71 / APPENDIX A lH and13 C̐ưث1H} NMR spectra / APPENDIX B X-ray Crystallographic Data Phthalocyanines--Synthesis Organometallic compounds--Synthesis Organometallic chemistry
32	The chemistry of organometallic derivatives of oligoacetylenic silanes Wong, Chun Kin 01 January 2002 (has links) No description available. Organometallic chemistry Organometallic compounds Silane compounds
33	A Comparative study of two copper(II) based metal-organic frameworks : Cu2¼(OH)½B4C•8H2O and Cu2Na(OH)B4C•7H2O Coombes, Matthew January 2013 (has links) This study focussed on two copper(II)-containing metal-organic frameworks (MOFs): Cu2Na(OH)B4C•7H2O and Cu2¼(OH)½B4C•8H2O (B4C = 1,2,4,5- benzenetetracarboxylate). They are both covalent, three-dimensional metalorganic framework polymers containing voids filled with water molecules. Both were characterised by elemental analysis, infrared spectroscopy, X-ray powder diffractometry (both in situ and regular), thermogravimetric analysis, differential scanning calorimetry and X-ray photoelectron spectroscopy. These two MOFs are essentially identical, with the only difference being the substitution of sodium by copper at every 4th site (disordered throughout the crystal). The guest inclusion properties of both MOFs were studied and compared. Although both structures collapse on dehydration, it was observed that Cu2Na(OH)B4C•7H2O is able to take up signifcant amounts of water, methanol and ethanol. All these processes are fully reversible. Car-Parrinello molecular dynamics studies suggest that it is a strong interaction between the oxygen atoms on these molecules with the sodium cation of the MOF that is responsible for this signifcant uptake. In contrast, Cu2¼ (OH)½ B4C•8H2O, the MOF without a sodium cation, did not demonstrate any methanol or ethanol uptake, but was able to take up some water. The uptake of water, however, is not a fully reversible process. The absence of sodium likely results in insuffcient energy to draw methanol and ethanol into the framework, while a subtle rotation of a carboxylate group on dehydration decreases the ability of the framework to form hydrogen bonds, thus reducing the ability to take up water. A series of hydrothermal syntheses were performed in order to develop a method of synthesis superior to the current gel-based synthesis that requires several months and has poor yields. The hydrothermal products were characterized by elemental analysis, infrared spectroscopy, X-ray powder diffractometry, thermogravimetric analysis and differential scanning calorimetry. It was shown that the MOF Cu2Na(OH)B4C•7H2O may be synthesised in almost 100% yield by using a temperature of 120°C over a period of 72 hours. It was not possible to synthesise Cu2¼ (OH)½ B4C•8H2O in a 100% yield - it was only obtained as a minor product. Copper Organometallic compounds Supramolecular organometallic chemistry
34	Tiasole en tiofene as uitgangstowwe vir die bereiding van karbeen- en ander koördinasiekomplekse Greyling, Denise Karola 12 September 2012 (has links) M.Sc. / This study focussed on two areas of research in the field of organometallic chemistry. The first entails the preparation and characterisation of a number of Fischer-type carbene complexes of the general formula (C0) 5M(OR)(RI) (1 - 4). For the first group M = Cr, Mo or W, R = Et or Me and re = Ph or BiPh. A second, somewhat different group was prepared by deprotonating 4- methylthiazol-2-methyltlfioether, reacting it with M(CO) 6, where M = Cr or W, and neutralising the resulting anion with methyltriflate. Both metals afforded only one product which could be successfully purified and characterised as M(C0),{C(OCH3)(C=C(CH3)N=C(SCH3)S) (6,7). The crystal structure of the tungsten complex was solved by single crystal X-ray techniques. A similar carbene complex preparation was carried out with 5-methylthiophenilyl-2-thiomethylether and M(C0)6, M = Cr or W, as starting reagents. In addition to the expected carbene complexes M(CO)5 (C(OCH3)(CH2SHCH=C(CH3)S)), M = Cr and W (9a, 10a), deprotonation of a ring carbon yielded M(C0) 5{C(OCH3)(6=C(SCH3)SC(CH3)=CH)) M = Cr and W (9b, 10b), whereas unreacted starting material afforded the sulfide W(C0) 54-SC(SCH3)=CHCH=C(CH3) (11). The second part of the thesis describes the preparation of pentacarbonyl thione and iminocomplexes, as well as tricarbonyl imino-, sulphide and dinuclear re-sulphide complexes. 4- Methylthiazoly1-2-thiolate were used for nucleophilic attack on (C0) 5Cr--C(OR)(12. 1) (1 and 4) to yield the thione complex Cr(C0) 54-S=CN(CH3)C(CH3)=CHS (13) upon methylation. Two other products were also obtained from these reactions : Cr(C0) 54-NC=CHSCH=C(CH3) (12) and Cr(CO) 54-N=C(CH3)SCH=C(CH3) (14), which indicates incomplete reaction with sulfur during the formation of the mentioned thiolate. Three beautiful electron ligand systems were produced by reacting 4-methylthiazol-2-disulphide with (CO),W(THF) or Fe2(C0)) . A new "butterfly" bidentately coordinated tricarbonyl tungsten complex, [(C0)3 1/{N(S)SCH(CH3)) 2] (16) was obtained. The crystal structure of this complex shows many similarities to a known complex, (C0)3W(n2-PyS)2 that was prepared from ionic metalcarbonyl precursors. In addition to 16, a thione complex W(C0) 54-SHC(CIi )=CHS (17) also formed from the reaction with (CO) 5M(THF). The reaction between (CO),M(THF) and 4-methylthiazolyi-2-disulphide thus probably involves heterolytic bond cleavage and protonation on the silica gel. The reaction of Fe 2(CO)9 with the same disulphide resulted in the formation of the dinuclear compound Fe2(C0)6(SC=NC(CH3)=CHS)2 (18), possibly via the homolytic splitting of the disulphide bond. The crystal structure of this compound revealed the Fe-Fe-bond and eclipsed configuration, typical of this type of Fe-cluster complex. Finally, two thione complexesM(C0)54—S(SMe)(eHCH(Me)S), (M= Cr and W; 20,21) were found to isomerise in solution to their sulphide analogues of which only the chromium complex Cr(C0)54— SC(Me)=CHCH=C(C(=S)(SMe)) (22) could be characterised. Carbenes (Methylene compounds) Organometallic chemistry Organometallic compounds
35	Supported tungsten imido and iridium pincer catalysts towards tandem hydrocarbon upgrading Wright, Christopher January 2017 (has links) The principle aims of this thesis have been to develop well-defined heterogeneous catalysts for potential applications in tandem hydrocarbon upgrading. Catalysts for olefin oligomerisation and metathesis of &alpsha;-olefins and transfer hydrogenation of alkanes based on tungsten mono-imido and PCP pincer iridium complexes have been synthesised and immobilised on solid supports. The reactivity of the immobilised catalysts has been tested and compared with the precursor complexes. Co-immobilisation of the two complexes on the same support has been undertaken. <b>Chapter One</b> provides a background to the olefin metathesis reaction and the development of highly active tungsten mono-imido and ruthenium alkylidene complexes. A summary of the implementation of the olefin oligomerisation reaction by industry and the development of highly active systems based on group 6 metals is discussed, along with a mechanistic discussion. The SOMC grafting procedure is considered and the immobilisation of catalysts for alkane and olefin metathesis and oligomerisation discussed; with focus on support materials: silica, sMAO and AMO-LDHs. Finally, tandem catalysis and its use in hydrocarbon upgrading and copolymerisation are presented. <b>Chapter Two</b> details the synthesis of W(NR)Cl<sub>4</sub>(THF) complexes and their conversion to W(NR)Me<sub>3</sub>Cl complexes employing TMA. The products are characterised by single crystal X-ray diffraction, NMR and FTIR spectroscopy. W(NR)Me<sub>3</sub>Cl complexes are shown to be active for the selective dimerisation of ethylene to 1-butene. Attempted formation of possible intermediates in the reaction is presented, and efforts to form mimics for silica supported species are also discussed. <b>Chapter Three</b> describes the preparation of AMO-LDHs for use as catalyst supports. The effect on the surface hydroxyl content and structural properties of these materials by thermally treating them under vacuum is analysed. Their capability to act as supports for ethylene polymerisation after impregnation with MAO and (<sup>n</sup>BuCp)<sub>2</sub>ZrCl<sub>2</sub> is described. <b>Chapter Four</b> investigates the immobilisation and characterisation of synthesised tungsten mono-imido complexes on sMAO, AMO-LDHs and silica, utilising SSNMR, FTIR and X-ray absorption spectroscopy. The reactivity of the grafted complexes towards ethylene oligomerisation is discussed. For the immobilised species effects of varying the imido ligand, temperature and solvent medium are reported. Attempts to immobilise ruthenium carbene complexes on AMO-LDHs and sMAO is detailed. <b>Chapter Five</b> gives an account of the immobilisation of Ir(<sup>tBu</sup>PCP)HCl on sMAO which is characterised by SSNMR and FTIR spectroscopy. Molecular analogues of the supported species are synthesised and reactivity for the hydrogenation of ethylene compared. Transfer hydrogenation reaction with sMAO-Ir(<sup>tBu</sup>PCP)HCl and COA or ethane with TBE as a sacrificial H<sub>2</sub> acceptor are discussed. Finally, co-immobilisation of W{N(2,6-F-C<sub>6</sub>H<sub>3</sub>)}Cl<sub>4</sub>(THF) and Ir(<sup>tBu</sup>PCP)HCl on sMAO was carried out and the solid characterised by SSNMR spectroscopy. <b>Chapter Six</b> provides experimental details and characterising data for the preceding chapters. An <b>Appendices</b> with crystallographic data, and characterising spectra for each chapter is provided, while the <b>Electronic Appendix</b> contains a combined CIF and checkcif for all the molecular structures presented.
36	The wide synthetic versatility of di- and tri- phospholide anions Caliman, Vinicius January 1996 (has links) No description available. 546 Organometallic compounds
37	The chemistry of ligand bridged complexes Caffyn, Andrew James Morris January 1989 (has links) No description available. 547 Organometallic compounds
38	The synthesis and study of some haxanuclear clusters Kamarudin, R. A. January 1987 (has links) No description available. 547 Organometallic complexes
39	Nitrosyl, nitrido and sulphido clusters of ruthenium and osmium Mace, J. M. January 1985 (has links) No description available. 547 Organometallic clusters
40	The chemistry of dinuclear complexes bridged by heterodifunctional ligands Duckworth, Timothy John January 1988 (has links) No description available. 547 Organometallic chemistry

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