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Exploring Photocatalytic and Electrocatalytic Reduction of CO2 with Re(I) and Zn(II) Complexes and Attempts to Employ a Novel Carbene Ligand to this EndeavorBerro, Patrick 07 January 2021 (has links)
With the blend of addressing issues of sustainable energy with the environmental worries regarding emission of greenhouse gases, there is a motivation to target the efficient chemical reduction of CO2. Re(I) integrated photosensitizers and catalysts, synthesized from commercially available ligands, are introduced with the selective CO2 reduction of formic acid, making for a unique class of Re(I) catalysts typically selective for CO as a reduction product. Furthermore, synthesized Zn(II) phosphino aminopyridine complexes are structurally and computationally characterized as well as observed to function as unprecedented electrocatalysts for the reduction of CO2 to formic acid and CO. Lastly, with the importance and popularity of N-heterocyclic carbenes (NHCs) as a class of ligands in the field of organometallic catalysis, six-membered perimidine based carbenes are further explored. Synthesis of a chelating pyridyl-perimidine NHC in addition to potential transition metal catalysts are also attempted.
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The preparation and use of metal salen complexes derived from cyclobutane diaminePatil, Smita S. January 1900 (has links)
Doctor of Philosophy / Department of Chemistry / Christopher J. Levy / The helix is an important chiral motif in nature, there is increasing development in field of helical transition metal complexes and related supramolecular structures. Hence, the goals of this work are to apply the principles of helicity in order to produce metal complexes with predictable molecular shapes and to study their properties as asymmetric catalysts.
Computational studies suggest that the (1R,2R)-cyclobutyldiamine unit can produce highly twisted salen complexes with a large energy barrier between the M and P helical forms. To test this prediction, the tartrate salt of (1R,2R)-cyclobutyldiamine was synthesized and condensed with a series of saliclaldehydes to produce novel salen ligands. The salicylaldehydes chosen have extended phenanthryl or benz[a]anthryl sidearms to encourage formation of helical coordination complexes. These ligands were metallated with zinc, iron and manganese salts to produce salen metal complexes which were characterized by NMR analysis, high-resolution mass spectrometry, and IR spectroscopy.
A second ligand type, neutral bis(pyridine-imine) has also been synthesized from (1R,2R)-cyclobutyldiamine and quinolylaldehydes. The synthesis of bis(pyridine-imine) ligands was conducted using greener method, solvent assisted grinding. These ligands, in-situ with nickel metal salts, showed good catalytic activity for asymmetric Diels-Alder reactions.
The third ligand type studied was chiral acid-functionalized Schiff-base ligands. These were synthesized by the condensation of 3-formyl-5-methyl salicylic acid and (1R,2R)-cyclobutyldiamine. With this type of ligand, there is possibility of producing both mono and dinuclear metal complexes. In our studies, we were only able to synthesize mononuclear complexs. These were tested as catalysts for asymmetric direct Mannich-type reaction, but were found to be ineffective.
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Helical transition metal complexes:synthesis, characterization and asymmetric epoxidations.Liu, Tingting January 1900 (has links)
Doctor of Philosophy / Department of Chemistry / Christopher J. Levy / A series of chiral titanium and manganese complexes with helix-directing salen ligands have been prepared, characterized and studied. Their structures displayed as a chiral helical motif as expected. And it was also found that all M(salen) units were exclusively M-helimeric in the solid state, except Ti(cyclohexyl-benz[a]anthryl) as P-helix. This may be due to the energy difference between P and M helice, which enables crystal packing forces to control and drive the molecular structure. This is also in agreement with the previous computational studies that the M configuration predominates in THF solution. All metal centers adopt a cis-β octahedral geometry except in Mn(binapthyl-phenanthryl-salen). Most of M(salen) complexes in this work afforded μ–oxo dinuclear helicates, instead of the expected monohelicate, except Mn(binapthyl-phenanthryl-salen), which is bridged by a third salen ligand.
The titanium salt affected the complex solution behavior. In the presence of Cl[superscript]-, only mononuclear species was found by ESI-MS, while both di- and mononuclear species was found in MeOH in the presence of –O[superscript]iPr. The NMR spectra of Ti(salen) indicated one major species with cis-β geometry exist in most solution, which could be monomer or dimer, except Ti(binapthyl-salen). No counterions have been found in the solid state of Mn(salen) complexes in this work, but they affected the ligand decomposition in the solution in Mn(binapthyl-phenanthryl-salen).
The Mn(salen) complexes could effectively and enatioselectively catalyze the asymmetric epoxidation of somoe trans, cis and terminal olefin, and various oxidants were employed.
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Theoretical Studies on Electronic Excited States of Transition Metal Complexes: Explanation and Understanding Based on Molecular Geometries and Electronic Structures / 遷移金属錯体の励起状態に関する理論的研究:分子構造と電子状態に基づいた説明と理解Saito, Ken 24 September 2012 (has links)
Kyoto University (京都大学) / 0048 / 新制・課程博士 / 博士(工学) / 甲第17162号 / 工博第3652号 / 新制||工||1555(附属図書館) / 29901 / 京都大学大学院工学研究科分子工学専攻 / (主査)教授 佐藤 啓文, 教授 横尾 俊信, 教授 梶 弘典 / 学位規則第4条第1項該当
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Nuclear Magnetic Resonance Studies of Paramagnetic Transition Metal Complexes.Chua, Kee-Lam 04 1900 (has links)
<p> Studies of the bonding and reactivity of transition metal complexes constitute a large fraction of current research in inorganic chemistry. The present thesis describes three contributions to this area. In each case, Nuclear Magnetic Resonance studies of paramagnetic complexes are involved. An introductory chapter briefly reviews some of the pertinent background. In the second chapter the NMR theory which forms the basis for interpreting the experimental results is developed. </p> <p> The major topic of the thesis is concerned with the effect of ligand substitution on the charge distribution of a transition metal complex. Interest in this topic is aroused by the many reports that the reactivity of transition metal complexes can be considerably affected by modification of the ligands. This is particularly notable in the area of homogeneous catalysis. It seemed possible that NMR studies of paramagnetic complexes might provide a probe for these effects. With this objective in view the NMR spectra of a series of trisβ diketonato V(III) complexes have been examined. It was found that substituent changes on one ligand brought about very large (several thousand Hz) changes in the isotropic shifts of protons or fluorine atoms located on another ligand. A rather complete study has been carried out on the series of complexes formed by systematically substituting CF₃ groups for CH₃ groups on tris-acetyl-acetonato V(III). Ninety-nine of the possible one hundred different ¹H and ¹⁹F resonances in this system have been observed and identified. This relatively large body of data enabled us to attempt an empirical analysis of the results in terms of changes in the charge distribution in the complex brought about by substitution. Arguments are presented to show that the isotropic shifts arise predominantly from contact interactions. It was found necessary to introduce two terms in the empirical equations describing the shifts. The first represents changes in the distribution of the unpaired electrons in the Vanadium(III) d orbitals brought about by modification of the crystal field potential produced by the ligands. The second represents variations in the ability of a ligand to accept electron density by metal to ligand charge transfer due to inductive effect of the substituent. Two term empirical equations of this type reproduce the observed shifts to within 2%. The significance of the parameters obtained from this analysis is discussed in some detail. These studies have been extended to include several other substituted β-diketone ligands. A similar analysis has proved feasible and a consistent pattern of substituent parameters is obtained. </p> <p> The second topic considered is closely related to the above study. The interest in this case was in the possible importance of dipolar shifts in determining the isotropic shifts of mixed chelates. A series of six coordinated Co(II) complexes wa.a chosen for this purpose. These compounds are known to possess considerable magnetic anisotropy and dipolar shifts are therefore to be expected. However analysis of the results reveals that the substituent shifts are very similar to those for the V(III) compounds. It appears that the mode of transmission of substituent effects proposed may be quite general for many transition metal complexes. </p> <p> The third topic involved in this thesis concerns the structure of the second coordination sphere of transition metal complexes. The participation of various solvents in the second coordination sphere of tris-pyrazolylborate Co(II) has been investigated. Equilibrium constants relative to carbon tetrachloride as a second sphere ligand have been obtained. The ability of a solvent to participate in the second sphere depends predominantly on its dipole moment and it is concluded that Van der Waals forces are responsible for outer sphere binding. </p> / Thesis / Doctor of Philosophy (PhD)
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Theoretical Studies on Transition Metal Complexes of Silicon Species: Their Novel Bonding Natures, Electronic Structures, and Fluxional Behavior / ケイ素化学種を含む遷移金属錯体の結合性、電子状態、動的挙動に関する理論的研究 / ケイソ カガクシュ オ フクム センイ キンゾク サクタイ ノ ケツゴウセイ デンシ ジョウタイ ドウテキ キョドウ ニ カンスル リロンテキ ケンキュウRay, Mausumi 23 July 2009 (has links)
Kyoto University (京都大学) / 0048 / 新制・課程博士 / 博士(工学) / 甲第14868号 / 工博第3136号 / 新制||工||1470(附属図書館) / 27290 / UT51-2009-K664 / 京都大学大学院工学研究科分子工学専攻 / (主査)教授 榊 茂好, 教授 今堀 博, 教授 杉野目 道紀 / 学位規則第4条第1項該当
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Energy Surface Explorations of Clusters, Transition-Metal Complexes, and Self-Assembled Systems / クラスター, 遷移金属錯体, 自己集合系のエネルギー曲面の探索Yoshida, Yuichiro 23 March 2021 (has links)
京都大学 / 新制・課程博士 / 博士(工学) / 甲第23220号 / 工博第4864号 / 新制||工||1759(附属図書館) / 京都大学大学院工学研究科分子工学専攻 / (主査)教授 佐藤 啓文, 教授 佐藤 徹, 教授 田中 勝久 / 学位規則第4条第1項該当 / Doctor of Philosophy (Engineering) / Kyoto University / DGAM
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NMR Study of the Reorientational and Exchange Dynamics of Organometallic ComplexesWang, Dongqing 05 1900 (has links)
Investigations presented here are (a) the study of reorientational dynamics and internal rotation in transition metal complexes by NMR relaxation experiments, and (b) the study of ligand exchange dynamics in transition metal complexes by exchange NMR experiments.
The phenyl ring rotation in Ru3(CO)9(μ3-CO)(μ3-NPh) and Re(Co)2(CO)10(μ3- CPh) was monitored by 13C NMR relaxation experiments to probe intramolecular electronic and/or steric interactions. It was found that the rotation is relatively free in the first complex, but is restrained in the second one. The steric interactions in the complexes were ascertained by the measurement of the closest approach intramolecular distances. The rotational energy barriers in the two complexes were also calculated by using both the Extended Hiickel and Fenske-Hall methods. The study suggests that the barrier is due mainly to the steric interactions.
The exchange NMR study revealed two carbonyl exchange processes in both Ru3(CO)9(μ3-CO)(μ3-NPh) and Ru3(CO)8(PPh3)(μ3-CO)(μ3-NPh). The lower energy process is a tripodal rotation of the terminal carbonyls. The higher energy process, resulting in the exchange between the equatorial and bridging carbonyls, but not between the axial and bridging carbonyls, involves the concerted formation of edge-bridging μ2-CO moieties. The effect of the PPh3 ligand on the carbonyl exchange rates has been discussed.
A combination of relaxation and exchange NMR found that PPh3 ligand rotation about the Ru-P bond is slow on the exchange NMR time scale and the phenyl rotation about the P-Cipso bond is fast on the exchange NMR time scale but is slow on the NMR relaxation time scale.
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Syntheses of Novel Side-Arm Functionalized N-Heterocyclic Silylene Transition Metal ComplexesPaesch, Alexander Noel 13 June 2019 (has links)
No description available.
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Towards Rational Design of Asymmetric Catalyst for Organometallic and Organocatalytic ReactionsHartikka, Antti January 2007 (has links)
<p>This thesis deals with synthetically modified chiral molecules and their application in asymmetric catalysis. The first part of the thesis describes the use of commercially available chiral diamine ligands in the iridium catalyzed transfer hydrogenation of aromatic ketones. The chiral diamine ligands were mixed with an appropriate transition-metal complex, which after addition of suitable base provided a chiral transition metal complex capable of reducing a range of different aromatic ketones in high yields and enantioselectivities. The developed methodology constitutes a cost effective and readily available procedure for transfer hydrogenation reactions. The following chapters in the thesis are completely devoted to rational design of small organic molecules acting as catalyst in various organocatalytic transformations. Organocatalytic methodology, represent a new and complementary approach to asymmetric organic synthesis, as compared to e.g. transition metal based methodology. Advantages of this methodology typically include mild and less stringent reaction conditions. This, in combination with the lack of toxic transition metal by-products, makes the process more environmentally benign; the organocatalytic methodology, therefore represent a promising approach towards implementation of green chemistry in organic synthesis. Despite this promise, typical drawbacks of the current methodology are long reaction times and the need for high catalyst loadings. Thus, a large demand exists for enhancing reactivity and increasing selectivity in organocatalytic reactions. The present thesis describes several efforts where we have tried to rationally design improved catalysts for various enantioselective organocata-lytic reactions. First, a structurally modified L-proline, incorporating a 1H-tetrazolic acid, was synthesized and evaluated in the direct asymmetric organocatalytic aldol reaction. As shown in Paper II, the catalyst displayed very high reactivity and subsequent studies were initiated in order to rationalize the reactivity enhancement (Paper III). Delightfully, the design principle of a 1H-tetrazolic acid as replacement for a carboxylic acid has since been widely used in the community, including our own efforts in organocatalytic asymmetric cyclopropanations (Paper V)and Diels-Alder reactions (Paper VII). Novel catalysts, including other functionalizations, were also designed for organocatalytic asymmetric addition of nitroalkanes to α,β-unsaturated aldehydes (Paper IV) and for cyclopropanations (Paper VI).</p>
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