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131	N-Heterocyclic Carbene Metal Complexes: Synthesis, Kinetics, Reactivity, and Recycling With Polymers Su, Haw-Lih 2011 August 1900 (has links) N-Heterocyclic carbenes (NHCs) are good ligands to most transition metals forming stable complexes. Many of the NHC-metal complexes are now widely used catalysts. However, the usage of these catalysts encounters the general problems associated with homogeneous catalysis: the purification of the catalysis reaction products is often time-consuming and generates large amounts of waste. Moreover, the toxic or expensive catalysts are difficult to be separated, recycled, and reused. Chapters II and III of this dissertation focus on addressing these problems through the development of an easier and “greener” process to improve the usage of some NHC-metal complexes. Polymer-supported catalysts and polymer-supported sequestrants were prepared and used to facilitate the separation/recycling of catalysts and the purification of products. These polymer-supported ligands, catalysts, and sequestrants showed comparable reactivity to their low molecular weight counterparts and had different solubility properties due to the nature of polymers. Using these materials with the corresponding operations provides simple methods to separate deeply colored, metal-containing by-products from the reaction mixtures. Chapter IV of this dissertation aims at solving a fundamental question about the nature of NHC-silver(I) complexes. The NHC-silver(I) complex is an important synthetic intermediate as it can be used to prepare other NHC-metal complexes through transmetallation. The carbene carbon of an NHC-silver(I) complex in 13C NMR spectra was usually reported as a doublet of doublets or as a singlet in different cases. This phenomenon was explained with a ligand exchange mechanism proposed twelve years ago. However, few reports are available in the literature about the mechanism of the NHC ligand exchange processes at silver. In order to facilitate the study of the solution behaviors of NHC-silver(I) complexes, 13C-labeled NHC-silver(I) complexes were prepared and studied using variable temperature 13C NMR spectroscopy. This study could be useful for future applications of ligand transferring from silver to other metals for the preparation of NHC-metal complexes. N-Heterocyclic carbene NHC, NHC-metal complexes polymer-support catalyst recycling dynamic VT NMR
132	Anwendung organokatalytischer Strategien zur Synthese biologisch-aktiver Strukturen und Untersuchung NHC-Palladium-katalysierter Prozesse Hartmann, Caroline January 2009 (has links) Zugl.: Karlsruhe, Univ., Diss., 2009
133	The Design and Synthesis of Functionalized Porphyrins and Their Applications in Group Transfer Reactions, Medicine, and Materials Fields, Kimberly Bliss 20 October 2010 (has links) Porphyrins and their analogs are a class of chemically and biologically important compounds that have found a variety of applications in different fields such as catalysis, medicine, and materials. The physical, chemical, and biological dependence of the peripheral substituents of porphyrins on their properties has prompted great effort towards the synthesis of new porphyrins with different electronic, steric, and conformational environments. To this end, porphyrins have been prepared using a modular approach from bromo- and triflate synthons. These synthons underwent palladium-catalyzed cross-coupling with chiral amines, amides, alcohols, and boronic esters to create products that were tested for biological activity. Metalloporphyrins were screened as catalysts for cyclopropanation and C-H amination, yielding excellent results. By changing the porphyrin catalysts’ chiral groups, all four enantiomers could be produced in the cyclopropanation of styrene derivatives with ethyl diazoacetate (or t-butyl diazoacetate). Similarly, a variety of sultams were produced from benzenesulfonyl azides in high yields and high enantioselectivities using chiral cobalt porphyrins as catalysts. Porphyrins, metalloporphyrins, and the catalytic products generated were tested for activity in a variety of medicinal collaborations, namely as therapeutics for methicillin-resistant Staphylococcus aureus, Alzheimer’s disease, malaria, viral infections that include influenza and herpes, and cancer, as well as biological studies with ferrochelatase. They were also used in materials experiments with two different polymer groups. amination nitrene azide asymmetric cyclopropanation carbene alzheimers malaria bacteria influenza polymer American Studies Arts and Humanities Chemistry
134	The use of new reactions for novel polymerizations, polymers and architectures Coady, Daniel Joseph 23 May 2013 (has links) The design, synthesis and characterization of novel conjugated polymers are described. Using a coupling reaction recently developed within our labs, polymers were constructed through triazene linkages generated by joining N-heterocyclic carbenes (NHCs) with organic azides. This triazene reaction produced polymer of sufficiently high molecular weight as to be spin-coated and rendered conductive upon doping with iodine. The reaction also has potential for executing post-polymerization modifications. This was evidenced through rapid functionalization of poly(4-methylazido-styrene) via triazene formation using a commercially available N-heterocyclic carbene (NHC). A formal anion metathesis of benzobis(imidazolium)s was used to transform neutral block copolymers into block ionomers. Further investigation of the block ionomers revealed their solvent mediated self assembly. The gradual change of organic to aqueous media caused the adoption of a three-dimensional micelle conformation as determined by transmission electron microscopy and dynamic light scattering. Through the exploitation of carbene-carbon disulfide adducts, new chain transfer agents were generated. After 2-dithiocarboxylate-imidazolium adduct formation, alkylation was performed with benzyl bromide. The resulting charged chain transfer agent was tested for its ability to moderate radical addition fragmentation (RAFT) polymerizations of styrene. A considerable increase in transfer kinetics as compared to that of commonly used RAFT agents was observed whilst retaining low polydispersity and molecular weight control. The rate enhancement is presumably due to the electron withdrawing imidazolium activating the thionyl towards the nucleophilic radical while retaining effective fragmentation. Ion coordinating macrocycles were affixed to a poly(methacrylate) scaffold for employment as electrolyte extractants. Polymer bound calix[4]pyrrole was found to complex fluoride and chloride with sufficient strength as to extract tetrabutylammonium salts from water. Enhanced extraction abilities were observed when calix[4]pyrrole was used in conjunction with benzo-15-crown-5. Methacrylate polymers containing both macrocycles affected the removal of aqueous potassium fluoride from a biphasic water/dichloromethane mixture. To provide evidence for the presence of potassium fluoride within the dichloromethane layer, ¹⁹F NMR and flame emission spectroscopy were used. / text Conjugated polymers Triazene linkages N-heterocyclic carbene Radical addition fragmentation Aqueous potassium fluoride
135	Transition metal catalysed functionalisation of c=c through boron chemistry: a tandem approach Lillo García, Vanesa 23 June 2009 (has links) Los compuestos organoborados son considerados de gran interés en síntesis orgánica debido a que el enlace C-B puede ser transformado en una amplia variedad de grupos funcionales. La adicción catalítica de H-B o B-B a enlaces C-C insaturados se considera uno de los procesos catalíticos con mayor control selectivo en la formación de dichos intermedios organoborados. En el capítulo primero de la presente tesis se muestra la evolución a través de la bibliografía de las tres principales reacciones de adición catalítica de boro a alquenos, como son hidroboración, diboración y -boración. El segundo capítulo describe por primera vez la hidroboración catalítica asimétrica tanto en version homogénea como heterogeneizada de sistemas alilícos heterofuncionalizados. También describe el primer ejemplo de diboración de fenil alil sulfonas con sistemas catalíticos de Pt modificados con ligandos N-heterocíclicos. El tercer capítulo muestra la diboración catalítica de alquenos con sistemas catalíticos formados por Cu, Pd e Ir modificados con ligandos NHC. La presencia de una base y la adicción de un exceso de diborano son esenciales para obtener un alto grado de actividad y selectividad. El cuarto capítulo muestra una efectiva síntesis de boro enolatos quirales usando metales de bajo coste como son Cu y Ni modificados con ligandos NHC quirales y ligandos difosfina quirales respectivamente. El quinto capítulo describe las reacciones tándem "in situ" tales como adición de boro-acoplamiento cruzado catalizadas por complejos de Pt modificado con ligandos carbenos y Pd modificados con ligandos difosfina. / Organoboron compounds are some of the most useful reagents in organic synthesis. The carbon-boron bond, once formed, can be cleaved in a variety of ways, with or without homologation, leading to a wide range of useful functional groups. The catalytic addition of H-B or B-B across to unsaturated C-C bond is one of the catalytic processes with higher selective control in the C-B bond formation. In the first Chapter of this thesis shows the evolution through the literature of the three main catalytic reactions of boron addition to alkenes, such as hydroboration, diboration and -boration.Chapter 2 describes the first attempt at the catalytic asymmetric hydroboration in both homogeneous and heterogenised version of functionalised allylic system. In addition, the first example of the diboration reaction of these mentioned substrates with complexes based on Pt modified with NHC ligands is described.Chapter 3 discusses catalytic diboration of alkenes based on Cu, Pd and Ir- catalytic system modified with NHC ligands. The presence of a base and the use of an excess of diboron reagent are essential to obtain high degree of activity and selectivity.Chapter 4 shows the successful synthesis of chiral boron enolates by using inexpensive metals such as copper and nickel modified with chiral NHC ligands and modulated chiral commercially available diphosphines respectively. In Chapter 5 describes complexes containing transition metals such as platinum and palladium modified with NHC ligands and P,P respectively capable to perform the in situ tandem catalytic boron-addition-Suzuki-Miyaura cross-coupling. Hydroboration Diboration B-addition Tandem reactions C-C cross coupling Carbene Homogeneous Catalysis 54 542 546
136	Asymmetric Intra- and Intermolecular Cyclopropanation by Co(II)- Based Metalloradical Catalysis Xu, Xue 01 January 2012 (has links) Metal-catalyzed cyclopropanation of olefins with diazo reagents has attracted research interest because of its fundamental and practical importance. The resulting cyclopropyl units are recurrent motifs in biologically important molecules and can serve as versatile precursors in organic synthesis. Since they were first introduced in 2004, Co(II) complexes of D2-symmetric chiral amidoporphyrins [Co(D2-Por*)] have emerged as a new class of catalysts for asymmetric cyclopropanation. These metalloradical catalysts have been shown to be highly effective for asymmetric intermolecular cyclopropanation of a broad scope of substrates with different classes of carbene sources, particularly including electron-deficient olefins and acceptor/acceptor-substituted diazo reagents, with excellent diastereoselectivity and enantioselectivity. This dissertation focuses on exploring the Co(II)-based metalloradical catalyzed enantioselective cyclization reactions. It includes expanding families of catalysts, types of reactions and classes of substrates. With the developed novel approach for chiral porphyrin ligands, a new family of catalysts bearing different electronic and steric characters was synthesized. They turned out to be better catalysts for metalloradical cyclization in many cases, for instance, enantioselectivity of intramolecular cyclopropanation reached up to 99% with new catalyst. Besides the catalyst synthesis, more challenging diazo reagents were successfully employed in both intra- and intermolecular cyclopropanation for direct synthesis of highly functionalized cyclopropanes. Moreover, a tandem radical cyclization process beyond cyclopropanation was discovered, dihydrofuran was generated in a highly selective manner. Last but not least, we developed some novel applications of cyclopropane products, which could potentially lead to more exciting works. carbene catalysis cobalt cyclopropanation diazo porphyrin American Studies Arts and Humanities Organic Chemistry
137	Modelling and synthesis of alicyclic bidentate n- and o chelating ligands / F.J. Smit Smit, Frans Johannes January 2009 (has links) The well-defined ruthenium-carbene complexes reported by Grubbs and co-workers were the first ruthenium catalysts to show good activity and selectivity in metathesis of acyclic and cyclic olefins. Unfortunately the use of the Grubbs type catalysts is limited to the small scale synthesis of polymers and essential organic reactions, due to cost and instability of the catalyst at elevated temperatures. Some of the most successful Grubbs-type catalysts included hemilabile ligands. By releasing a free coordination site (the so-called "on-demand-open-site") for an incoming nucleophile, hemilabile ligands have the ability to increase the thermal stability and activity of a catalytic system, by stabilization of the transition metal centre. Previous studies indicated that the incorporation of a sterically hindered N and 0 chelating ligand increased the stability, activity and selectivity of Grubbs type complexes and increasing the electron density of the complex can influence the stability of a complex and therefore the catalytic performance. In this study alicyclic, bidentate N and 0 chelating ligands (16-19) were modelled in order to evaluate the hemilability of these ligands. The modelling was used as a comer stone from which the synthesis was conducted. Molecular modelling showed that of the four ligands identified only two (16 and 18) could potentially be hemilabile. 17 would rather form a transaunular ether compound. The modelling results were incondusive for ligand 19 and further investigation is necessary for this compound… / Thesis (M.Sc. (Chemistry))--North-West University, Potchefstroom Campus, 2010. Ruthenium-carbene Grubbs Hemilabile Alicyclic Bidentate N and O chelating ligands Molecular modelling
138	Modelling and synthesis of alicyclic bidentate n- and o chelating ligands / F.J. Smit Smit, Frans Johannes January 2009 (has links) The well-defined ruthenium-carbene complexes reported by Grubbs and co-workers were the first ruthenium catalysts to show good activity and selectivity in metathesis of acyclic and cyclic olefins. Unfortunately the use of the Grubbs type catalysts is limited to the small scale synthesis of polymers and essential organic reactions, due to cost and instability of the catalyst at elevated temperatures. Some of the most successful Grubbs-type catalysts included hemilabile ligands. By releasing a free coordination site (the so-called "on-demand-open-site") for an incoming nucleophile, hemilabile ligands have the ability to increase the thermal stability and activity of a catalytic system, by stabilization of the transition metal centre. Previous studies indicated that the incorporation of a sterically hindered N and 0 chelating ligand increased the stability, activity and selectivity of Grubbs type complexes and increasing the electron density of the complex can influence the stability of a complex and therefore the catalytic performance. In this study alicyclic, bidentate N and 0 chelating ligands (16-19) were modelled in order to evaluate the hemilability of these ligands. The modelling was used as a comer stone from which the synthesis was conducted. Molecular modelling showed that of the four ligands identified only two (16 and 18) could potentially be hemilabile. 17 would rather form a transaunular ether compound. The modelling results were incondusive for ligand 19 and further investigation is necessary for this compound… / Thesis (M.Sc. (Chemistry))--North-West University, Potchefstroom Campus, 2010. Ruthenium-carbene Grubbs Hemilabile Alicyclic Bidentate N and O chelating ligands Molecular modelling
139	Synthesis of selected cage alkenes and their attempted ring-opening metathesis polymerisation with well-defined ruthenium carbene catalysts / Justus Röscher Röscher, Justus January 2011 (has links) In this study a number of cage alkenes were synthesised and tested for activity towards ringopening metathesis polymerisation (ROMP) with the commercially available catalysts 55 (Grubbs-I) and 56 (Grubbs-II). The first group of monomers are derivatives of tetracyclo[6.3.0.04,1105,9]undec-2-en-6-one (1). The synthesis of these cage alkenes are summarised in Scheme 7.1. The cage alkene 126b was synthesised by a Diels-Alder reaction between 1 and hexachlorocyclopentadiene (9, Scheme 7.2). The geometry of 126b was determined from XRD data. Knowledge of the geometry of 126b also established the geometry of 127 since conformational changes during the conversion from 126b to 127 are unlikely. Synthesis of the cage alkene 125 by the cycloaddition of 9 to 118 failed. The cage alkene exo-11- hydroxy-4,5,6,7,16,16-hexachlorohexacyclo[7.6.1.03,8.02,13.010,14]hexa-dec-5-ene (124, Scheme 7.3) could therefore not be prepared. Synthesis of 125 by reduction of 126b with various reduction systems was not successful. Theoretical aspects of these reactions were investigated with molecular modelling. A possible explanation for the unreactive nature of 126b towards reduction is presented, but the lack of reactivity of 118 towards 9 eluded clear explanations. The synthesis of cage alkenes from 4-isopropylidenepentacyclo[5.4.0.02,6.03,10.05,9]-undecane-8,11- dione (23) did not meet with much success (Scheme 7.4). Numerous synthetic methods were investigated to affect the transformation from 134a/134b to 135 (Scheme 7.5). These attempts evolved into theoretical investigations to uncover the reasons for the observed reactivity. Possible explanations were established by considering the differences and similarities between the geometries and electronic structures of reactive and unreactive cage alcohols. ROMP of cage monomers based on 1 were mostly unsuccessful. Only the cage monomer 127 showed some reactivity. Endocyclic cage monomers with a tetracycloundecane (TCU) framework showed no reactivity. The results from NMR experiments verified the experimental results. Hexacyclo[8.4.0.02,9.03,13.04,7.04,12]tetradec-5-en-11,14-dione (3) exhibited notable ROMP reactivity. Examination of the orbitals of the cage alkenes used in this study suggested that the reactivity of 1 and 3 could possibly be enhanced by removal of the carbonyl groups. Decarbonylation of 1 and 3 yielded the cage hydrocarbons 159 and 175, respectively. ROMP tests revealed that 175 is an excellent monomer, but 159 was unreactive. The results obtained for the ROMP reactions in this study was rationalised by considering aspects such as ring strain, energy profiles, steric constraints, and frontier orbital theory. The concept of ring strain is less useful when describing the reactivity of cage alkenes towards ROMP and therefore the concepts of fractional ring strain and fractional ring strain energy (RSEf) were developed. A possible link between RSEf and the ROMP reactivity of cage alkenes was also established. The following criteria were put forth to predict the reactivity or explain the lack of reactivity of cage alkenes towards ROMP reactions with Grubbs-I and Grubbs-II. The criteria for ROMP of cage monomers: 1. Sufficient fractional ring strain energy (RSEf). 2. A reasonable energy profile when compared to a reference compound such as cyclopentene. 3. Ability to form a metallacyclobutane intermediate with reasonable distances between different parts of the cage fragment. 4. Sufficient ability of the polymer fragment to take on a conformation that exposes the catalytic site. 5. Sufficient size, shape, orientation and energy of HOMO and/or NHOMO at the alkene functionality of the cage monomer and of the LUMO at the catalytic site. / Thesis (Ph.D. (Chemistry))--North-West University, Potchefstroom Campus, 2012 Cage alkenes Cage compounds Ring-opening metathesis polymerisation ROMP Ruthenium carbene catalysts Grubbs-I Grubbs-II
140	Synthesis, characterisation and reactivity study of rare earth metal complexes Wang, Kai January 2018 (has links) The chapter one introduces the reported examples of rare earth metal (RE) complexes with different oxidation states. It also reviews the synthesis and reactivity study of N-heterocyclic carbene (NHC) supported transition metal and RE metal complexes. Chapter two focusses on the synthesis and characterisation of a series of tetraaryloxide Ce and Pr complexes. With the reaction of bulky tetraphenol proligand H4LR(R = P, PT, M) with four equivalents of KN"(N" = N(SiMe3)2), a dimerised complex of [K4LP]2(thf)11 was synthesised and characterised. The salt metathesis reactions of this complex with RECl3(thf)2 afford bimetallic aryloxide complexes of K2L2RE2(thf)11 (RE = Ce, Pr), which display divergent structures under different conditions. Reactions of the CeIII complex of K2L2Ce2(thf)11 with a variety of oxidants(I2, CuCl2 and O2, etc.) lead to the oxidation of CeIII to CeIV, affording purple ceric dimer of L2Ce2. The reaction of the PrIII complexes with I2 under 60 °C affords a mixture from which PrIII iodide (LPr2I2) has been isolated and characterised. This chapter also discusses the reactivity of the bimetallic aryloxide complexes towards different substrates, such as MeLi, KC8 and KBn (Bn = benzyl). Bimetallic complexes of L(REX)2(py)8 (RE = Ce, Pr; X = Cl, BH4) are synthesised and characterised. The preliminary study on the copolymerization of cyclohexene oxide (CHO) and CO2 is conducted for CeIII and PrIII complexes. Chapter three details the work on two different types of NHC ligand. The first ligand is the β-ketoimidazolinium salts H2LBr {L = RC(O)CH2{CH[NCH2CH2NMes], R = tBu, naphth} which reacts with MHBEt3 (M = Na, K) to form carbene-borane adducts RC(O)CH2{C(BEt3[NCH2CH2NMes]}. This type of reactivity differs from the previous work on imidazole derivatives. The possible mechanism of these reactions is provided and discussed. The other ligand is p-aryloxy-tethered imidazolinium salt H2LX (L = N-3,5-di-tert-butyl-4-hydrooxyphenyl-N’-mesityl-imidazolinium, X = Cl, Br, PF6 ), which have been synthesised and characterised. The reactions of these salts with MN"(M = Na, K) enabled the characterisation of polymerised complexes of [NaL]n and [KL(thf)2]n. The yttrium complex YL3 is synthesised and its reactivity towards small molecules such as boranes, CO2 and CS2 is discussed. Chapter four presents the primary results on the study of macrocyclic NHC based cyclophane ligand H6LPF6 (L = calix[4]imidazolylidene[2]pyrazolato). Investigations on the reactivity of the ligand towards different bases (NaN", KN", KBn etc.) are examined and subsequent metathesis reactions with RE complexes are explored. Chapter five concludes the work presented in this thesis. Chapter six contains all experimental and characterisation details.

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