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Category :
Languages : en
Pages : 81

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Author:
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ISBN:
Category :
Languages : en
Pages : 80

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Author: Aziza Hatice Sahin
Publisher:
ISBN: 9781124223438
Category :
Languages : en
Pages :

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In Chapter One, a catalytic enantioselective method for the synthesis of 3- hydroxy-2-oxindoles is described. 3-Hydroxy-2-oxindoles were synthesized by a nucleophilic addition of electron-rich arenes and aromatic heterocycles to substituted indole-2,3-diones (isatins) catalyzed by scandium(III) and indium(III)-inda-pybox complexes. The use of a bulky chiral ligand hindered the formation of the achiral 3,3-diaryl-2-oxindole side product. Substituted 3-hydroxy-2-oxindoles were formed in high yield and high enantioselectivity (up to 99% ee). In Chapter Two, a method for the synthesis of chiral 3,3-disubstituted-2-oxindoles from a nucleophilic substitution at the stereocenter of a substituted 3-hydroxy-2-oxindole is described. This SN̳1-like process is catalyzed by a Lewis or a Brønsted acid, which eliminates water to form an indolenium ion intermediate. Chiral BINOL-derived phosphoric acids and phosphoramides are promising catalysts for an asymmetric process, as the conjugate base can act as a counteranion that coordinates to the carbocation intermediate to direct an asymmetric nucleophilic addition. Catalyst and solvent effects have been investigated with yields ranging from 68-97%. Preliminary enantioselectivity has been observed and further optimization is underway.

Author: Alyssa Harrison
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ISBN:
Category :
Languages : en
Pages : 59

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Author: Li Zheng
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ISBN:
Category : Electronic dissertations
Languages : en
Pages : 271

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A potent chiral aluminum catalyst has been developed for asymmetric MPV reduction of ketones with broad substrate scope and excellent yields and enantiomeric inductions. The catalyst consists an aluminum core, a VANOL-derived chiral ligand and an isopropoxy group. Different ligands have been screened and reaction parameters have been optimized. A variety of aromatic (both electron-poor and electron-rich) and aliphatic ketones were converted to chiral alcohols in good yields with high enantioselectivities (26 examples, 70-98% yield and 82-99% ee). This method operates under mild conditions (-10 °C) and low catalyst loading (1-10 mol%). Furthermore, this process is catalyzed by the earth-abundant main group element aluminum and employs inexpensive and environmentally benign 2-propanol as hydride source. This catalyst has also been employed in resolution of racemic alcohols. The kinetic resolution of alcohols by Oppenauer oxidation has been achieved with moderate results. The formal dynamic kinetic resolution via Oppenauer oxidation/ MPV reduction sequence has also been examined and discussed, which avoided acylation and the use of enzymes.A highly efficient asymmetric heteroatom Diels-Alder reaction between diene and aldehydes for the construction of 6-membered heterocycles catalyzed by chiral boron catalysts has been developed. A BINOL-derived propeller borate is found to be effective catalyzing the reaction of aromatic aldehydes. A VANOL-derived meso-borate is found to be able to catalyze the reaction of both aromatic and aliphatic aldehydes with high asymmetric inductions. Excellent yields and enantioselectivities have been achieved after optimization. Furthermore, the skeleton of 6-carbon saccharides is synthesized in the reaction of 2-hydoxyacetaldehyde with different protecting groups, which can be derivatized into many saccharide analogs. The mechanism of this reaction is proposed to be concerted based on experiments involving different methods for the reaction quench. A reversal of direction of the asymmetric induction by switching boron to aluminum has been observed. Computational studies show that catalysts derived from boron and aluminum have different geometries at the Lewis acid center.

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Category :
Languages : en
Pages :

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Author: Matthew Neil Grayson
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Category :
Languages : en
Pages :

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Author: Justin Mitchell Misener
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ISBN:
Category : Biodegradable plastics
Languages : en
Pages : 32

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Author: Joseph Jesse Badillo
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ISBN: 9781321013184
Category :
Languages : en
Pages :

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The development of regio- and stereoselective methods for the synthesis of oxindoles and spirocyclic oxindoles is important due to the prevalence of these structures in natural products and medicinal agents. This dissertation describes both Lewis acid and organocatalytic strategies for the regio-, diastereo-, and enantioselective synthesis of several classes of 3,3'-oxindoles and 3,3'-spirooxindoles. These strategies are applied to several synthetic transformations including allylsilane annulations, Friedel-Crafts alkylations, and Pictet-Spengler reactions. Chapter one describes an overview of recent methods for the enantioselective synthesis of oxindoles and spirooxindoles with a particular focus on scaffolds relevant to drug discovery. This overview is organized by type of catalyst and strategy in order to compare traditional organometallic and Lewis acid methods with recent organocatalytic methods. This chapter also features a section on multicomponent and cascade reaction strategies. Chapter two describes the development of synthetic methodology using titanium(IV)-catalysis for the selective synthesis of two new classes of spirocyclic oxindoles. In the first section, I present a highly regio- and diastereoselective method for the synthesis of spiro[3,3'oxindoleoxazolines] upon addition of 5-methoxy-2-oxazoles to isatins. In the second section, I present a method for the addition of 5-methoxy-2-aryloxazoles to [alpha],[beta]-unsaturated alkylidene oxindoles to provide access to spiro[3,3'oxindole-1-pyrrolines] with excellent yields and diastereoselectivities. This methodology is also effective for the diastereoselective synthesis of 1-pyrrolines derived from coumarins and simple malonates. Chapter three describes the condensation cyclization between isatins and 5-methoxytryptamine catalyzed by chiral phosphoric acids to provide spirooxindole tetrahydro-[beta]-carboline products in excellent yields and enantioselectivity. A comparison of catalysts provides insight for the reaction scope and factors responsible for efficient catalytic activity and selectivity in these Pictet-Spengler type spirocyclization reactions. In addition I show that chiral phosphoric acids with different 3,3'-substitution on the binaphthyl system and opposite axial chirality afford the spiroindolone product with the same absolute configuration. Chapter four describes a strategy for the efficient two-step synthesis of triazole derivatives of oxindoles and spirooxindoles. Using a common set of N-propargylated isatins, a series of mechanistically distinct stereoselective reactions with different combinations of nucleophiles and catalysts provides access to diverse hydroxy-oxindoles, spiroindolones, and spirocyclic oxazoline structures. The resulting N-propargylated oxindoles are then converted to triazoles using copper-catalyzed azide-alkyne cycloaddition (CuAAC) reactions. This strategy is used for the synthesis of a 64-member pilot-scale library of diverse oxindoles and spirooxindoles. Chapter five describes the first catalytic asymmetric [3+2] allylsilane annulation for the synthesis of cyclopentanes containing an all-carbon quaternary spirocenter. The annulation reaction is catalyzed with a chiral scandium(III)-indapybox complex where a sodium tetrakis[3,5-bis(trifluoromethyl)phenyl]borate (NaBArF) anion is essential for catalytic activity and stereoselectivity. Lactone formation affords evidence for an ester stabilized [beta]-silyl carbocation. Further transformations provide access to N-H spirooxindoles and allow transformation of the silyl group to a hydroxyl moiety. This catalyst complex is also effective for the asymmetric Friedel-Crafts conjugate addition of variety of additional pi-nucleophiles (i.e. indoles, pyrroles, anilines) to [alpha],[beta]-unsaturated alkylidene oxindoles. This methodology is also effective for the diastereoselective synthesis of coumarin and simple malonate derivatives.

Author: Mark Christopher Dobish
Publisher:
ISBN:
Category : Electronic dissertations
Languages : en
Pages : 302

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