Transition-metal Catalyzed Redox Triggered C-C Bond Forming Reactions Via Carbonyl Addition PDF Download
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Author: Wandi Zhang
Publisher:
ISBN:
Category :
Languages : en
Pages : 1316
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Book Description
Author: Wandi Zhang
Publisher:
ISBN:
Category :
Languages : en
Pages : 1316
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Book Description
Author: Boyoung Park
Publisher:
ISBN:
Category :
Languages : en
Pages : 712
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Book Description
Carbonyl addition is one of the fundamental reactions forming C–C bonds in organic chemistry to construct structurally complex organic molecules, in particular natural products, from small molecules. For this useful carbonyl addition, transition metal catalyzed redox-triggered C–C bond forming reactions of alcohols have been developed via transfer hydrogenation. Combined redox events are more efficient in terms of step- and atom-economy by delivering nucleophile-electrophile pairs in situ from [pi]-unsaturates and alcohols, respectively. Furthermore, transition metal catalyzed redox-triggered C–C couplings bypass the need of stoichiometric (organo)metallic reagents. This dissertation shows the development of new methodologies for this goal including prenylation, vinylation, alkylation and allylation using various ruthenium, osmium and iridium catalysts.
Author: Khoa Dang Nguyen (Ph. D.)
Publisher:
ISBN:
Category :
Languages : en
Pages : 1316
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Book Description
Since C-C bonds form the backbone of every organic molecule and reside at the heart of chemical science, the development of new efficient methods for promoting C-C bond formation is of great significance. Inspired and expanded from traditional Grignard reactions, the work presented in this dissertation focuses on metal catalyzed neutral redox-triggered carbonyl addition via transfer hydrogenation. Advancing the native reducing capability of alcohols, employment of catalytic transition metals enables the formation of nucleophile-electrophile pairs in situ, en route to the products of formal alcohol C-H functionalization. These redox-triggered reactions circumvent the stoichiometric metallated byproduct waste and streamline the construction of complex molecules from simple and/or readily available feedstocks. The research reported herein discloses new developed methodologies of ruthenium and iridium catalyzed coupling reactions of primary and secondary alcohols with various pi-unsaturates. These studies contribute to the growing body of redox-triggered alcohol C-C couplings - new carbonyl addition chemistry that extends beyond the use of premetalated reagents.
Author: Gang Wang (Ph. D.)
Publisher:
ISBN:
Category :
Languages : en
Pages : 684
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Book Description
Redox-triggered carbonyl addition via transfer hydrogenation, which enables direct primary alcohol C-H functionalization to form C-C bond, avoids usage of premetalated reagents or discrete alcohol to aldehyde redox reactions. Moreover, step-economy could be greatly improved by site-selective transformations of polyfunctional molecules due to bypassing the need to install and remove protecting groups. However, the redox site-selective transformations still pose a significant challenge in the area of synthetic organic chemistry. Efforts have been focused on the development of iridium catalyzed transfer hydrogenative coupling reactions of primary alcohols with different allyl donors through carbonyl addition in a site-selective manner as well as ruthenium catalyzed regioselective hydrohydroxyalkylation of primary alcohols with a basic feedstock-styrene. Additionally, studies towards the total synthesis of type I polyketide natural product (+)-SCH 351448 in the most concise route is presented.
Author: Victoria J. Garza
Publisher:
ISBN:
Category :
Languages : en
Pages : 660
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Book Description
Transition metal catalyzed transfer hydrogenative methods for carbon-carbon bond construction are attractive alternatives to tradition carbonyl addition protocols. By generating carbonyl and organometallic species in-situ, these redox-triggered reactions remove the need for preactivation of reactive partners. This affords a more atom and step economic, and ultimately more efficient approach to carbonyl addition. Efforts have been focused on the development of ruthenium and iridium catalyzed coupling reactions of primary alcohols and aldehydes to a variety of unsaturates. To produce highly stereoselective transformations, investigation into the selectivity in iridium catalyzed couplings was undertaken. Improving upon methods for carbonyl addition can provide access to new areas in synthetic organic methodology.
Author:
Publisher: Elsevier
ISBN: 044323700X
Category : Science
Languages : en
Pages : 338
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Book Description
Enantioselective C-C Bond Forming Reactions: From Metal Complex-, Organo-, and Bio-catalyzed Perspectives, Volume 73 in the Advances in Catalysis series, highlights new advances in the field, with this new volume presenting interesting chapters on topics such as An introduction to Chirality, Metal-catalyzed stereoselective C-C-bond forming reactions, Enantioselective C-C bond forming reactions promoted by organocatalysts based on unnatural amino acid derivatives, Enantioselective C-C bond formation in complex multicatalytic system, Gold-based multicatalytic systems for enantioselective C-C Bond forming reactions, Novel enzymatic tools for C-C bond formation through the development of new-to-nature biocatalysis, and more. - Provides the authority and expertise of leading contributors from an international board of authors - Presents the latest release in Advances in Catalysis serials - Updated release includes the latest information in the field
Author: Joyce Chi Ching Leung
Publisher:
ISBN:
Category :
Languages : en
Pages : 902
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Book Description
Carbon-carbon bond forming reactions are fundamental transformations for constructing structurally complex organic building blocks, especially in the realm of natural products synthesis. Classical protocols for forming a C-C bond typically require the use of stoichiometrically preformed organometallic reagents, constituting a major drawback for organic synthesis on process scale. Since the emergence of transition metal catalysis in hydrogenation and hydrogenative C-C coupling reactions, atom and step economy have become important considerations in the development of sustainable methods. In the Krische laboratory, our goal is to utilize abundant, renewable feedstocks, so that the reactions can proceed in an efficient and atom-economical manner. Our research focuses on developing new C-C bond forming protocols that transcend the use of stoichiometric, preformed organometallic reagents, in which [pi]-unsaturates can be employed as surrogates to discrete premetallated reagents. Under transition metal catalyzed transfer hydrogenation conditions, alcohols can engage in C-C coupling, avoiding unnecessary redox manipulations prior to carbonyl addition. Stereoselective variants of these reactions are also under extensive investigation to effect stereo-induction by way of chiral motifs found in ligands and counterions. The research presented in this dissertation represents the development of a new class of C-C bond forming transformations useful for constructing synthetic challenging molecules. Development of transfer hydrogenative C-C bond forming reactions in the form of carbonyl additions such as carbonyl allylation, carbonyl propargylation, carbonyl vinylation etc. are discussed in detail. Additionally, these methods avoid the use of stoichiometric chiral allenylmetal, propargylmetal or vinylmetal reagents, respectively, accessing diastereo- and enantioenriched products of carbonyl additions in the absence of stoichiometric organometallic byproducts. By exploiting the atom-economical transfer hydrogenative carbonyl addition protocols using ruthenium and iridium, preparations of important structural motifs that are abundant in natural products, such as allylic alcohols, homoallylic alcohols and homopropargylic alcohols, become more feasible and accessible.
Author: Abbas Hassan
Publisher:
ISBN:
Category :
Languages : en
Pages : 670
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Book Description
In Michael J. Krische research group we are developing new transition metal catalyzed Carbon-Carbon (C-C) forming reactions focusing on atom economy and byproduct free, environmental friendly approaches. We have developed a broad family of C-C bond forming hydrogenations with relative and absolute stereocontrol which provide an alternative to stoichiometric organometallic reagents in certain carbonyl and imine additions. Inspiring from the group work my goal was to develop new reactions, extend the scope of our group chemistry and their application towards synthesis of biologically active natural products. I have been part of enantioselective Rh catalyzed Aldol reaction of vinyl ketones to different aldehydes. Also, we have found that iridium catalyzed transfer hydrogenation of allylic acetates in the presence of aldehydes or alcohols results in highly enantioselective carbonyl allylation under the conditions of transfer hydrogenative. Based on this reactivity a concise enantio- and diastereoselective synthesis of 1,3-polyols was achieved via iterative chain elongation and bidirectional iterative asymmetric allylation was performed, which enables the rapid assembly of 1,3-polyol substructures with exceptional levels of stereocontrol. The utility of this approach stems from the ability to avoid the use of chirally modified allylmetal reagents, which require multistep preparation, and the ability to perform chain elongation directly from the alcohol oxidation level. This approach was utilized for the total synthesis of (+)-Roxaticin from 1,3-propanediol in 20 longest linear steps and a total number of 29 manipulations. Further, advancements were made in iridium catalyzed C-C bond formation under transfer hydrogenation. While methallyl acetate does not serve as an efficient allyl donor, the use of more reactive leaving group in methallyl chloride compensate for the shorter lifetime of the more highly substituted olefin [pi]-complex. Based on this insight into the requirements of the catalytic process, highly enantioselective Grignard-Nozaki-Hiyama methallylation is achieved from the alcohol or aldehyde oxidation levels. Also, a catalytic method for enantioselective vinylogous Reformatsky- type aldol addition was developed in which asymmetric carbonyl addition occurs with equal facility from the alcohol or aldehyde oxidation level. Good to excellent levels of regioselectivity and uniformly high levels of enantioselectivity were observed across a range of alcohols and aldehydes.
Author: Ryan Lloyd Patman
Publisher:
ISBN:
Category :
Languages : en
Pages : 336
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Book Description
The efficient construction of complex organic molecules mandates that an assortment of methods for forming C-C bonds be available to the practicing synthetic chemist. The addition of carbon based nucleophiles to carbonyl compounds represents a broad class of reactions used to achieve this goal. Traditional methodology requires the use of stoichiometrically preformed organometallic reagents as nucleophiles in this type of reaction. However, due to the moisture sensitivity, excessive preactivation and inevitable generation of stoichiometric waste required for the use of these reagents, alternative methods have become a focus of the synthetic organic community. The research presented in this dissertation describes a new class of C-C bond forming reactions enabled through catalytic transfer hydrogenation. Here, the development and implementation of efficient green methods for carbonyl addition employing [pi]-unsaturates as surrogates to preformed organometallic reagents is described. Additionally, this research describes the first systematic studies toward using alcohols as electrophiles in carbonyl allylation, propargylation and vinylation reactions.
Author: Andrew Robert Waldeck
Publisher:
ISBN:
Category :
Languages : en
Pages : 630
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Book Description
While polyketides display a diverse range of biological properties and are used extensively in human medicine, a lack of methods for the concise preparation of these complex structures still poses a significant challenge in the field of synthetic organic chemistry. To address this issue, metal catalyzed methods for transfer hydrogenative C-C bond formation have been developed. These methods construct products of carbonyl addition through direct C-H bond functionalization, which provides a more atom economic and efficient approach to carbonyl addition products and circumvents the need for stoichiometric use of chiral auxiliaries, premetallated C-nucleophiles, and discrete alcohol-to-carbonyl redox reactions. Efforts have been focused on the development of ruthenium-catalyzed coupling reactions of secondary alcohols to basic chemical feedstocks as well as the application of iridum-catalyzed couplings of primary alcohols with [greek small letter pi]-unsaturates in the context of the total syntheses of (−)-cyanolide A and (+)-cryptocaryol A. These total syntheses represent the most concise route reported to date for each natural product and illustrate the synthetic utility of transfer hydrogenative C-C bond forming methodology.
