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11	Studies on PNP-Pincer Type Phosphaalkene Complexes Stabilized by a Fused-Ring Bulky Protection Group / 嵩高い縮環型保護基により安定化されたPNPピンサー型ホスファアルケン錯体に関する研究 Taguchi, Hiroomi 23 May 2018 (has links) 京都大学 / 0048 / 新制・課程博士 / 博士(工学) / 甲第21268号 / 工博第4496号 / 新制\|\|工\|\|1699(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)教授小澤文幸, 教授大江浩一, 教授中村正治 / 学位規則第4条第1項該当 / Doctor of Philosophy (Engineering) / Kyoto University / DFAM phosphaalkene ligands steric protection PNP-pincer complexes metal-ligand cooperative activation relativistic effects 500
12	Improved stoichiometric synthesis of CCC-NHC pincer Rh complexes and catalytic activity towards dehydrogenative silylation and hydrosilylation of alkenes Amoateng, Enock 08 August 2023 (has links) (PDF) N-Heterocyclic carbenes (NHCs) have attracted growing interest not only as successful ancillary ligands in a wide variety of transition-metal-catalyzed reactions but have also shown to offer photophysical and electrochemical properties. The metalation/transmetalation strategy using [Zr(NMe2)4] as initial metalating reagent offers an efficient approach to the preparation of CCC-NHC pincer complexes of the late transition metals such as Rh and Ir. In the process of investigating an intermediate and the mechanism of the metalation/transmetalation to Rh sequence, a mixed valent bimetallic CCC-NHC pincer Rh complex with two chloro ligands bridged between a [(CCC-NHC)Rh(III)] and a [Rh(I)(COD)] fragment was isolated and fully characterized for the first time. The investigation of the Rh(III)/Rh(I) bimetallic intermediate in the CCC-NHC pincer metalation/transmetalation methodology led to an improved stoichiometric synthesis of series of CCC-NHC pincer Rh complexes. The CCC-NHC pincer Rh complexes were characterized with 1H and 13C NMR spectroscopy, ESI-TOF MS and single crystal X-ray diffraction. The catalytic activity of the series of CCC-NHC pincer Rh complexes were evaluated. All the CCC-NHC pincer Rh precatalysts were found to promote the dehydrogenative silylation of vinylarenes with Et3SiH to form the corresponding (E)-vinylsilanes as the major silylation product under solvent-free conditions. The catalytic system displays wide substrate scope. Electron rich and electron deficient vinylarenes were well tolerated affording the corresponding vinyl silanes in good yields (65-86%). Mechanistic investigations indicated that Rh(III) center was responsible for the catalytic performance. The CCC-NHC pincer ligand architecture plays a role in achieving good regio- and stereoselectivities. Also, the complexes were evaluated as precatalysts towards hydrosilylation of aryl- and alkyl alkenes. The precatalysts, [(BuCiCiCBu)RhCl(µ-Cl)2Rh(COD)] and [(BuCiCiCBu)RhCl(µ-Cl)]2, were found to promote highly regioselective anti-Markovnikov hydrosilylation of aryl- and alkyl alkenes with excellent selectivity (>99%) using Et3SiH or PhMe2SiH as silane source and acetonitrile as solvent. Straight chain alkyl alkenes were tolerated without undergoing isomerization as it is the case with most known hydrosilylation catalyst systems. We extended the improved stoichiometric metalation/transmetalation methodology towards the synthesis of 1,3-di(1H-1,2,4-triazol-1-yl)benzene-based pincer Rh complexes. A series of 1,1'-(1,3-phenylene)bis(4-hexyl-1H-1,2,4-triazol-4-ium) salts were synthesized. Metalation/transmetalation of 1,1'-(1,3-phenylene)bis(4-hexyl-1H-1,2,4-triazol-4-ium) diiodide salt was successfully demonstrated to synthesize novel triazole-based CCC-NHC pincer Rh complexes. CCC-NHC pincer complexes Dehydrogenative silylation Hydrosilylation Catalysis Rhodium Inorganic Chemistry Organic Chemistry
13	Proton-Coupled Electron Transfer at Nickel Pincer Complexes Schneck, Felix 26 April 2019 (has links) No description available. 540 Proton-Coupled Electron Transfer Photochemistry Coordination Chemistry Reverse Water-Gas Shift Nickel Pincer Complexes Chemie (PPN62138352X)
14	Synthesis and Catalytic Activities of Nickel Complexes Bearing Flexible Tridentate Ligands Nambukara Wellala, Nadeesha P. 30 October 2017 (has links) No description available. Chemistry Organic Chemistry Inorganic Chemistry Nickel Complexes Pincer Complexes CO2 Reduction C S Cross Coupling Reactions Hydride Complexes Protonation
15	Pincer-Liganden mit fluorierten Alkylketten Hermes, Anja 08 January 2015 (has links) Die vorliegende Arbeit beschäftigt sich mit der Synthese von Pincer-Ligandenvor-läufern mit fluorierten Alkylketten –(CH2)2Rf6 (Rf6 = C6F13) an Sauerstoff- bzw. Phosphorhaftatomen. Darüber hinaus stehen die Bildung hochfluorierter Lithium-, Palladium-, Ruthenium- sowie Aluminium-Pincer-Komplexe und die Reaktivitäts-studien für diese neuartigen Komplexe im Fokus. Für vergleichende Untersuchungen war ebenso die Synthese der analogen, nicht fluorierten Verbindungen von Interesse. Eine Mischung aus in situ hergestelltem (NC5H3)-1,3-(CH2P((CH2)2(CF2)5CF3)2)2 (13) und [Ru(2Me-C3H4)2(cod)] kann die Dehydrogenierung von Cyclooctan bei vergleichsweise niedrigen Temperaturen von 80 °C katalysieren. Interessant ist die je nach Lösungsmittel unterschiedliche Produktbildung. Die Lithium- und Aluminiumkomplexe [Li(C6H3-2,6-(CH2O(CH2)2(CF2)5CF3)2)] (21), [Li(C6H3 2,6 (CH2OCH3)2)] (22), [Al((C6H3)-2,6-(CH2O(CH2)2(CF2)5CF3)2)(CH3)2] (28), [Al((C6H3)-2,6-(CH2OCH3)2)I2] (29), [Al((C6H3)-2,6-(CH2O(CH2)2(CF2)5CF3)2)I2] (31) wurden erfolgreich synthetisiert und charakterisiert. Mittels [Al((C6H3)-2,6-(CH2O(CH2)2(CF2)5CF3)2)I2] (31) konnten diverse aromatische Verbindungen wie Benzol, Toluol oder Pentafluorbenzol dehydrogenierend gekuppelt werden. Weiterhin wurden die Palladiumkomplexe [Pd(Cl)((C6H3)-2,6-(CH2O(CH2)2(CF2)5CF3)2)] (34) und [Pd(NCCH3)((C6H3)-2,6-(CH2O(CH2)2(CF2)5CF3)2)][PF6] (36), [Pd(Cl)((C6H3)-2,6-(CH2OCH3)2] (37) und [Pd(NCCH3)((C6H3)-2,6-(CH2OCH3)2][PF6] (38) hergestellt und charakterisiert. / The current thesis is concerned with the syntheses of pincer ligand precursors with fluorinated alkyl chains –(CH2)2Rf6 (Rf6 = C6F13), the so called „ponytails“, at oxygen or phosphorous donor atoms. Furthermore, this work focuses on the formation of highly fluorinated lithium, palladium, ruthenium or alumina pincer complexes and considering reactivity studies of these novel compounds. For comparative investigations the syntheses of the analog non-fluorinated compounds was of great interest. A mixture of in situ synthesized (NC5H3)-1,3-(CH2P((CH2)2(CF2)5CF3)2)2 (13) and [Ru(2Me-C3H4)2(cod)] catalyses the dehydrogenation of cyclooctane at relatively low temperatures of 80 °C. Depending on the used solvent cyclooctene or cyclooctatriene can be received as the single product, respectively. The lithium and alumina complexes [Li(C6H3-2,6-(CH2O(CH2)2(CF2)5CF3)2)] (21), [Li(C6H3 2,6 (CH2OCH3)2)] (22), [Al((C6H3)-2,6-(CH2O(CH2)2(CF2)5CF3)2)(CH3)2] (28), [Al((C6H3)-2,6-(CH2OCH3)2)I2] (29), and [Al((C6H3)-2,6-(CH2O(CH2)2(CF2)5CF3)2)I2] (31) were synthesized and characterized succesfully. With the complex [Al((C6H3)-2,6-(CH2O(CH2)2(CF2)5CF3)2)I2] (31) a diversity of aromatic compounds like benzene, toluene or pentafluorobenzene can be coupled after dehydrogenation. Moreover, the palladium complexes [Pd(Cl)((C6H3)-2,6-(CH2O(CH2)2(CF2)5CF3)2)] (34), [Pd(NCCH3)((C6H3)-2,6-(CH2O(CH2)2(CF2)5CF3)2)][PF6] (36), [Pd(Cl)((C6H3)-2,6-(CH2OCH3)2] (37) and [Pd(NCCH3)((C6H3)-2,6-(CH2OCH3)2][PF6] (38) were synthesized and characterized. Fluorierte Alkylketten Pincer-Liganden Alkandehydrogenierung Pincer-Komplexe fluorinated alkyl chains pincer ligands alkane dehydrogenation pincer complexes 540 Chemie 30 Chemie VH 9707 ddc:540
16	Nouveaux complexes pinces POCOP, NHCCOP, PIMCOP et PIMIOCOP, et complexes cyclométallés de Ni(II) : synthèse, caractérisation et réactivité Vabre, Boris 07 1900 (has links) No description available. Nickel Pincer complexes Complexes pinces Catalyse Complexes cyclométallés C-H activation Cyclometalated Complexes Fluoration Fluorination Amidines
17	Activation of H-X (X = H, Si, B, C) Sigma Bonds in Small Molecules by Transition Metal Pincer Complexes Ramaraj, A January 2017 (has links) (PDF) No description available. Transition Metal Pincer Complexes Sigma Complexes Heterolysis of H-H Bond Pincer Ligands Dihydrogen Complexes Ruthenium Pincer Complex Sigma Bond Activation Inorganic and Physical Chemistry
18	Complexes NCN de Ni(II) et Ni(III) : synthèse, caractérisation et rôle dans le mécanisme de couplage C-O, C-N et C-halogènes Cloutier, Jean-Philippe 09 1900 (has links) No description available. Complexes pinces Ni(II) Ni(III) Ni(IV) NCN Nickel Couplage C-O Couplage C-N Couplage C-halogènes Élimination réductrice Comproportionation Disproportionation Pincer complexes High-valent NCN pincer complexes Functionalization C-O coupling C-N coupling C-halogen coupling Reductive elimination C-H activation DFT
19	Complexes pinceurs de cobalt et de nickel : synthèse, caratérisation, réactivité Lefèvre, Xavier 08 1900 (has links) Plusieurs nouveaux complexes pinceurs de cobalt et de nickel ont été préparés avec le ligand pinceur de type POCOP : 2,6-(i-Pr2PO)2C6H4. Dans le cas du cobalt, une nouvelle voie de synthèse a été développée. Contrairement au cas du nickel, il s’agit ici de cobalt au degré d’oxydation +III. Les composés obtenus sont paramagnétiques. En outre, le dérivé bromé est instable à la lumière et se décompose en perdant un brome pour former le complexe pinceur de Co(II). La réactivité de ces complexes a été étudiée. Pour ce qui est du nickel, la catalyse de l’hydroamination a été élargie aux dérivés de l’acrylonitrile et aux amines aromatiques. En outre, la réaction d’hydroaryloxylation a été étudiée dans les mêmes conditions. Enfin, avec le 4-cyanostyrène et le cinnamonitrile, la formation d’amidines a été observée. Un complexe pinceur portant cette amidine a été isolé. Enfin, le cation réagit avec des anions fortement coordonnants tels le cyanure ou l’isocyanate. En outre, l’anion triflate peut être déplacé par l’eau, l’acrylonitrile et ses dérivés. Enfin, une réactivité particulière a été observée avec la morpholine, l’acétone et un mélange 1:1 aniline/triéthylamine. / A large variety of new POCOP pincer type complexes of cobalt and nickel have been prepared. All those complexes are based on the following POCOP pincer type ligand: 2,6-(i-Pr2PO)2C6H4 In the case of cobalt, a new synthetic pathway has been developped. Unlike nickel, complexes containing cobalt in the +III oxidation state are obtained, the mechanism of their formation remains unknown. These complexes are paramagnetic. The dibromo derivative is light-sensitive, decomposing by losing a bromine to form the Co(II) pincer complex. The reactivity of those complexes has been studied. Concerning nickel, the catalyzed hydroamination has been extended to the derivates of acrylonitrile, crotonitrile and methacrylonitrile and to aromatic amines. Moreover, hydroaryloxylation reaction has been studied under the same conditions. Finally, amidines formation was obtained with 4-cyanostyrene and with cinnamonitrile. A pincer complex bearing this amidine moiety has been isolated. The cationic complex reacts with strong coordinating anions like cyanide and isocyanate. Moreover, the triflate anion is displaced by water, acrylonitrile and acrylonitrile derivates. Finally, a particular reactivity has been observed with morpholine, acetone and a 1:1 mixture of aniline and triethylamine. Complexes pinceurs Pincer complexes Cobalt Cobalt Nickel Nickel Catalyse Catalysis Coordination Coordination Hydroamination Hydroamination Hydroalcoxylation Hydroalkoxylation Amidine Amidine Acrylonitrile Acrylonitrile Diffraction de rayons X X-ray diffraction RMN NMR GC-MS GC-MS
20	Préparation, caractérisation et étude de réactivité de complexes de nickel comportant un ligand de type "pincer" Castonguay, Annie January 2008 (has links) Thèse numérisée par la Division de la gestion de documents et des archives de l'Université de Montréal. Nickel Complexe "pincer" Activation C-H Couplage de Kumada-Corriu Hydroamination des oléfines Oligomérisation des silanes Diffraction des rayons X RMN Voltammétrie cyclique Nickel Pincer complexes C-H activation Kumada-Corriu coupling Olefin hydroamination Silanes oligomerization X-ray diffraction NMR Cyclic voltammetry

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