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51	C–H Activation by Ruthenium(II), Cobalt(III) and Manganese(I) Catalysis Zell, Daniel 04 July 2017 (has links) No description available. 540 C–H Activation Catalysis Stereoselective Synthesis 3d Transition Metals Chemie (PPN62138352X)
52	Palladium-catalyzed sp² C-H bond functionalization : construction of photoswitches and desulfitative cross-couplings / Activations de liaisons C-H pallado-catalysées : Nouveaux accès à des diarylethenes et couplages désulfitatifs Yuan, Kedong 22 October 2015 (has links) Au cours de cette thèse, nous nous sommes intéressés à la synthèse de photo-interrupteurs organiques [DAE, di(hétéro)arylethenes] via activation de liaisons sp² C-H d'hétéroaromatiques catalysées par le palladium. Le système catalytique pour l'arylation directe précédemment établi, Pd(OAc)₂/KOAc/DMAc, s'est montré adapté aux nouvelles transformations souhaitées. Cette méthode permet l'accès direct à une grande variété de molécules photo-commutable en peu d'étapes. En outre, concernant le développement de nouvelles procédures de fonctionnalisation de liaisons C-H d'hétéroaromatiques, nous avons constaté que le système catalytique Pd(CH₃CN)₂Cl2/Li₂CO₃/dioxane, pour le couplage de thiophènes avec des chlorures d'arylsulfonyle conduit à des thiophènes β-arylés. Ce nouveau système catalytique peut également être utilisé dans une réaction d'addition conjuguée, en utilisant des énones et des chlorures d'arylsulfonyle en tant que partenaires de couplage. Enfin, nous avons décrit la formation de 4-aryl-1,2,3,4-tetrahydroquinolines via Heck/sp² C-H activation co-catalysée par PdCl₂/CuBr. / During this thesis, we were interested in the synthesis of organic photo-switches [DAE, di(hetero)arylethenes] via palladium catalyzed sp2 C-H bond activation of heteroaromatics. The previously established catalysts system for direct arylation, Pd(OAc)₂/KOAc/DMA, was found to be suitable for the new desired transformations. This method allows the straightforward access to a wide variety of useful photo-switchable molecules in a few steps. Moreover, during the course of further developments of C-H bond functionalization of heteroaromatics, we found that a phosphine free catalytic system, Pd(CH₃CN)₂Cl2/Li ₂CO₃/dioxane, promotes the coupling of thiophenes and arylsulfonyl chlorides to afford unexpected β-arylated products. This new catalytic system can also be utilized in conjugate addition reaction by using enones and arylsulfonyl chlorides as coupling partners. Finally, we describe PdCl2/CuBr co-catalyzed formation of 4-aryl-1,2,3,4-tetrahydroquinolines via cascade desulfitative Heck/sp² C-H activation sequence. Hétéroarènes Liaisons C-H Palladium Chlorures d'arylsulfonyle Désulfitants Heteroarenes C-H Activation Palladium Arylsulfonyl chlorides Desulfitative
53	Novel Approaches for the Synthesis of C-5 Modified Pyrimidine Nucleosides Liang, Yong 05 November 2014 (has links) The antiviral or anticancer activities of C-5 modified pyrimidine nucleoside analogues validate the need for the development of their syntheses. In the first half of this dissertation, I explore the Pd-catalyzed cross-coupling reaction of allylphenylgermanes with aryl halides in the presence of SbF5/TBAF to give various biaryls by transferring multiple phenyl groups, which has also been applied to the 5-halo pyrimidine nucleosides for the synthesis of 5-aryl derivatives. To avoid the use of organometallic reagents, I developed Pd-catalyzed direct arylation of 5-halo pyrimidine nucleosides. It was discovered that 5-aryl pyrimidine nucleosides could be synthesized by Pd-catalyzed direct arylation of N3-free 5-halo uracil and uracil nucleosides with simple arenes or heteroaromatics in the presence of TBAF within 1 h. Both N3-protected and N3-free uracil and uracil nucleosides could undergo base-promoted Pd-catalyzed direct arylation, but only with electron rich heteroaromatics. In the second half of this dissertation, 5-acetylenic uracil and uracil nucleosides have been employed to investigate the hydrogermylation, hydrosulfonylation as well as hydroazidation for the synthesis of various functionalized 5-vinyl pyrimidine nucleosides. Hydrogermylation of 5-alkynyl uracil analogues with trialkylgermane or tris(trimethylsilyl)germane hydride gave the corresponding vinyl trialkylgermane, or tris(trimethylsilyl)germane uracil derivatives. During the hydrogermylation with triphenylgermane, besides the vinyl triphenylgermane uracil derivatives, 5-[2-(triphenylgermyl)acetyl]uracil was also isolated and characterized and the origin of the acetyl oxygen was clarified. Tris(trimethylsilyl)germane uracil derivatives were coupled to aryl halides but with decent yield. Iron-mediated regio- and stereoselective hydrosulfonylation of the 5-ethynyl pyrimidine analogues with sulfonyl chloride or sulfonyl hydrazine to give 5-(1-halo-2-tosyl)vinyluracil nucleoside derivatives has been developed. Nucleophilic substitution of the 5-(β-halovinyl)sulfonyl nucleosides with various nucleophiles have been performed to give highly functionalized 5-vinyl pyrimidine nucleosides via the addition-elimination mechanism. The 5-(β-keto)sulfonyluracil derivative has also been synthesized via the aerobic difunctionalization of 5-ethynyluracil analogue with sulfinic acid in the presence of catalytic amount of pyridine. Silver catalyzed hydroazidation of protected 2'-deoxy-5-ethynyluridine with TMSN3 in the presence of catalytic amount of water to give 5-(α-azidovinyl)uracil nucleoside derivatives was developed. Strain promoted Click reaction of the 5-(α-azidovinyl)uracil with cyclooctyne provide the corresponding fully conjugated triazole product. Nucleoside Pd-catalyzed Cross-coupling Palladium Click Chemistry Hydrogermylation C-H activation Direct Arylation Organic Chemistry
54	Computational Study of Small Molecule Activation via Low-Coordinate Late First-Row Transition Metal Complexes Pierpont, Aaron 05 1900 (has links) Methane and dinitrogen are abundant precursors to numerous valuable chemicals such as methanol and ammonia, respectively. However, given the robustness of these substrates, catalytically circumventing the high temperatures and pressures required for such transformations has been a challenging task for chemists. In this work, computational studies of various transition metal catalysts for methane C-H activation and N2 activation have been carried out. For methane C-H activation, catalysts of the form LnM=E are studied, where Ln is the supporting ligand (dihydrophosphinoethane or β-diketiminate), E the activating ligand (O, NCH3, NCF3) at which C-H activation takes place, and M the late transition metal (Fe,Co,Ni,Cu). A hydrogen atom abstraction (HAA) / radical rebound (RR) mechanism is assumed for methane functionalization (CH4 à CH3EH). Since the best energetics are found for (β-diket)Ni=O and (β-diket)Cu=O catalysts, with or without CF3 substituents around the supporting ligand periphery, complete methane-to-methanol cycles were studied for such systems, for which N2O was used as oxygen atom transfer (OAT) reagent. Both monometallic and bimetallic OAT pathways are addressed. Monometallic Fe-N2 complexes of various supporting ligands (LnFe-N2) are studied at the beginning of the N2 activation chapter, where the effect of ligand on N2 activation in end-on vs. side-on N2 isomers is discussed. For (β-diket)Fe-N2 complexes, the additional influence of diketiminate donor atom (N(H) vs. S) is briefly addressed. The remainder of the chapter expands upon the treatment of β-diketiminate complexes. First, the activation and relative stabilities of side-bound and end-bound N2 isomers in monometallic ((β-diket)M-N2) and bimetallic ((β-diket)M-N2-M(β-diket)) first row transition metal complexes are addressed. Second, the thermodynamics of H/H+/H- addition to (β-diket)Fe-bound N2, followed by subsequent H additions up to release of ammonia, is discussed, for which two mechanisms (distal and alternating) are considered. Finally, the chapter concludes with partial distal and alternating mechanisms for H addition to N2 in bimetallic (β-diket)Fe-N2-Fe(β-diket) and (β-diket)M-N2-M(β-diket) (M = Ti,V,Fe), respectively. C-H activation computational inorganic catalysis methane functionization N2 activation Transition metal complexes. Methane. Nitrogen.
55	Ativações C-H catalisadas por Pd(II) e Rh(III) : estudos metodológicos e do mecanismo para a síntese de diariletanos e congêneres e avaliações da sua atividade biológica / C-H activations catalysed by Pd(II) and Rh(III) : methodological and mechanistic studies to the synthesis of diarylethane and congeners and evaluations of its biological activity Azambuja, Francisco de, 1986- 27 August 2018 (has links) Orientador: Carlos Roque Duarte Correia / Tese (doutorado) - Universidade Estadual de Campinas, Instituto de Química / Made available in DSpace on 2018-08-27T10:03:33Z (GMT). No. of bitstreams: 1 Azambuja_Franciscode_D.pdf: 29528823 bytes, checksum: e651bbfc392063bea6be92abe74dbcba (MD5) Previous issue date: 2015 / Resumo: Neste trabalho, ativações C-H catalisadas por Pd(II) e Rh(III) foram exploradas para a obtenção de moléculas com potencial atividade biológica, em especial 1,1- e 1,2-diariletanos. Para o paládio, foi investigada a hidroarilação de alcinos de Fujiwara como um método rápido, brando e direto para a obtenção de ?-aril-?-heteroaril acrilatos. Inicialmente, o mecanismo desta reação foi estudada através de estudos de espectrometria de massas e ressonância magnética nuclear para elucidar a atuação do catalisador e os fatores envolvidos na estereosseletividade. Após este estudo, as condições reacionais foram reavaliadas para preparação de ?-aril-?-heteroaril acrilatos em bons rendimentos e seletividades. O paládio também foi usado como catalisador de arilações de Heck-Matsuda empregadas como etapa-chave na síntese de anidridos maleicos diarilados, a partir dos quais novos análogos de combretastatina A4 foram preparados. Estes novos análogos e os adutos da hidroarilação de alcinos de Fujiwara foram submetidos a testes de atividade antiproliferativa em células tumorais humanas. De maneira geral, os produtos de Fujiwara apresentaram melhores perfis de atividades, em especial para linhagens de células de rim e ovário, enquanto que os derivados de anidrido maleico diarilado mostraram-se muito pouco ativos para todas as linhagens. Esta ausência de atividade foi atribuída a interações estéreas desfavoráveis detectadas em estudos preliminares de docagem. Por último, ativações C-H catalisadas por 1,2,3,4,5-pentametilciclopentadienilródio(III) ([CpRh(III)]) foram estudadas em dois projetos diferentes, um envolvendo 1,3-diinos e outro com ?-halo/pseudohalocetonas como parceiros de acoplamento, para a obtenção de diversos bis-heterociclos adjacentes e N-heterociclos monossubstituídos, respectivamente, com ênfase à preparação de núcleos isoquinolona / Abstract: New Pd(II) and Rh(III) catalysed C-H activations methods were developed to the obtaining of potential biologically active molecules, particularly 1,1- e 1,2-diarylethanes. With palladium, the Fujiwara¿s hydroarylation of alkynes was investigated as a fast, mild and direct method to the synthesis of ?-aryl-?-heteroaryl acrylates. Initially, the mechanism of this reaction was studied using nuclear magnetic resonance and mass spectrometry to elucidate the catalyst role and the key factors controlling the stereoselectivity. After, the reaction conditions were optimized in order to prepare the ?-aryl-?-heteroaryl acrylates in good yields and selectivities. The palladium was also applied as catalyst to the Heck-Matsuda arylations employed as the key step to the synthesis of non-symmetric diaryl maleic anhydrides. From such compounds new combretastatin A4 analogs were produced. These new compounds and the Fujiwara adducts were tested against several human tumor cells. The results were much better to the Fujiwara products, especially to kidney and ovary tumor cell lines. In contrast, the diaryl maleic anhydrides derivatives showed very low activity for all kinds of cells tested. This absence of activity was attributed to unfavorable steric interactions detected in preliminary docking studies. Last, the C-H activations catalysed by 1,2,3,4,5-pentamethylciclopentadienylrhodium(III) ([CpRh(III)]) were explored in two different projects: 1) the C-H activation/1,3-diyne strategy to the synthesis of adjacent bis-heterocycles and 2) ?-halo/pseudohaloketones as oxidized alkyne equivalents to the selectively preparation of monosubstituted N-heterocycles, in particular the isoquinolone core / Doutorado / Quimica Organica / Doutor em Ciências Paládio Rodio Ativação C-H Câncer Diarilmetano Palladium Rhodium C-H activation Cancer Diarylmethane
56	Copper Catalysis: Perfluoroalkylation and Atom Transfer Radical Polymerization Paeth, Matthew S. 22 September 2021 (has links) No description available. Chemistry Copper Catalysis Trifluoromethylation Atom Transfer Radical Polymerization Fluoroalkylation Pentafluoroethylation Perfluoroalkylation Living Polymerization C-H Activation
57	C–H Activation by Iron(III), Manganese(II) and Rhoda(III)electro Catalysis Shen, Zhigao 02 December 2020 (has links) No description available. 540 C H activation Manganese-catalysis Iron-catalysis Cyclopropylation Chemie (PPN62138352X)
58	Iron-Catalyzed C–H/N–H Activations for Annulation of Allenes, Alkynes, and Bicyclopropylidenes Mo, Jiayu 26 October 2020 (has links) No description available. 540 Iron C–H Activation Allenes Bicyclopropylidenes alkynes redox-neutral reactions Chemie (PPN62138352X)
59	Iridium-Catalyzed Atom Economical Transformations of Unsaturated Hydrocarbons / イリジウム触媒による不飽和炭化水素のアトムエコノミー型変換反応 Nagamoto, Midori 26 March 2018 (has links) 京都大学 / 0048 / 新制・課程博士 / 博士(理学) / 甲第20944号 / 理博第4396号 / 新制\|\|理\|\|1631(附属図書館) / 京都大学大学院理学研究科化学専攻 / (主査)教授依光英樹, 教授丸岡啓二, 教授大須賀篤弘 / 学位規則第4条第1項該当 / Doctor of Science / Kyoto University / DGAM Iridium C-H Activation [3 + 2] Annulation Hydrofunctionalization Asymmetric Reaction 400
60	Development of Calcium and Palladium Catalysts for the Formation of Carbon-Carbon and Carbon-Heteroatom Bonds Kunchithapatham, Kamala 25 June 2012 (has links) No description available. Chemistry catalysis calcium salicylaldimine hydroamination cross-coupling thioesters oxazoles C-H activation terminal olefins vinylsilanes

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