Transformations of cyclopropanols via zinc homoenolate and enolized homoenolate
Cyclopropanols have emerged as easily accessible precursors for the in situ generation of keto-homoenolates in the presence of metal catalysts and reagents. This thesis describes the discovery and development of three different transformations of a cyclopropanol that utilize a zinc homoenolate as a...
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2023
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sg-ntu-dr.10356-1645502023-03-06T07:30:04Z Transformations of cyclopropanols via zinc homoenolate and enolized homoenolate Yoshiya, Sekiguchi Chiba Shunsuke School of Chemistry, Chemical Engineering and Biotechnology Shunsuke@ntu.edu.sg Science::Chemistry::Organic chemistry::Organic synthesis Cyclopropanols have emerged as easily accessible precursors for the in situ generation of keto-homoenolates in the presence of metal catalysts and reagents. This thesis describes the discovery and development of three different transformations of a cyclopropanol that utilize a zinc homoenolate as a common intermediate. Chapter 1 provides a general introduction to the chemistry of metal homoenolate and its enolized species referred to as enolized homoenolate, followed by the design and summary of this thesis research. Chapter 2 describes the development of a zinc-catalyzed enantioselective ring-opening conjugate addition of a cyclopropanol to an enone. A catalyst generated from diethylzinc and a chiral β-aminoalcohol promotes ring-opening/1,4-addition of the cyclopropanol to the enone to give a 1,6-diketone, which then undergoes intramolecular aldol condensation to afford a cyclopentene derivatives in good yield and enantioselectivity. Chapter 3 describes a zinc-catalyzed β-allylation of a cyclopropanol with a Morita−Baylis−Hillman (MBH)-type allylic carbonate with retention of the cyclopropane ring. The key intermediate in this reaction is a catalytically generated enolized homoenolate, which is a bis-nucleophilic species generated through enolization of a zinc homoenolate intermediate. The enolized homoenolate reacts with the MBH carbonate at the α-position to generate the β-allylated zinc homoenolate, which then undergoes cyclization to afford the β-allylated cyclopropanol. Chapter 4 describes a zinc-mediated α-hydroxyallylation of an aldehyde with a cyclopropanol via an enolized homoenolate. In this reaction, the enolized homoenolate acts as a γ-oxyallyl nucleophile and reacts with the aldehyde to form a vicinal anti-sec,tert-diol in a diastereoselective manner. Doctor of Philosophy 2023-02-02T07:32:27Z 2023-02-02T07:32:27Z 2023 Thesis-Doctor of Philosophy Yoshiya, S. (2023). Transformations of cyclopropanols via zinc homoenolate and enolized homoenolate. Doctoral thesis, Nanyang Technological University, Singapore. https://hdl.handle.net/10356/164550 https://hdl.handle.net/10356/164550 10.32657/10356/164550 en This work is licensed under a Creative Commons Attribution-NonCommercial 4.0 International License (CC BY-NC 4.0). application/pdf Nanyang Technological University |
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Science::Chemistry::Organic chemistry::Organic synthesis Yoshiya, Sekiguchi Transformations of cyclopropanols via zinc homoenolate and enolized homoenolate |
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Cyclopropanols have emerged as easily accessible precursors for the in situ generation of keto-homoenolates in the presence of metal catalysts and reagents. This thesis describes the discovery and development of three different transformations of a cyclopropanol that utilize a zinc homoenolate as a common intermediate. Chapter 1 provides a general introduction to the chemistry of metal homoenolate and its enolized species referred to as enolized homoenolate, followed by the design and summary of this thesis research. Chapter 2 describes the development of a zinc-catalyzed enantioselective ring-opening conjugate addition of a cyclopropanol to an enone. A catalyst generated from diethylzinc and a chiral β-aminoalcohol promotes ring-opening/1,4-addition of the cyclopropanol to the enone to give a 1,6-diketone, which then undergoes intramolecular aldol condensation to afford a cyclopentene derivatives in good yield and enantioselectivity. Chapter 3 describes a zinc-catalyzed β-allylation of a cyclopropanol with a Morita−Baylis−Hillman (MBH)-type allylic carbonate with retention of the cyclopropane ring. The key intermediate in this reaction is a catalytically generated enolized homoenolate, which is a bis-nucleophilic species generated through enolization of a zinc homoenolate intermediate. The enolized homoenolate reacts with the MBH carbonate at the α-position to generate the β-allylated zinc homoenolate, which then undergoes cyclization to afford the β-allylated cyclopropanol. Chapter 4 describes a zinc-mediated α-hydroxyallylation of an aldehyde with a cyclopropanol via an enolized homoenolate. In this reaction, the enolized homoenolate acts as a γ-oxyallyl nucleophile and reacts with the aldehyde to form a vicinal anti-sec,tert-diol in a diastereoselective manner. |
| author2 |
Chiba Shunsuke |
| author_facet |
Chiba Shunsuke Yoshiya, Sekiguchi |
| format |
Thesis-Doctor of Philosophy |
| author |
Yoshiya, Sekiguchi |
| author_sort |
Yoshiya, Sekiguchi |
| title |
Transformations of cyclopropanols via zinc homoenolate and enolized homoenolate |
| title_short |
Transformations of cyclopropanols via zinc homoenolate and enolized homoenolate |
| title_full |
Transformations of cyclopropanols via zinc homoenolate and enolized homoenolate |
| title_fullStr |
Transformations of cyclopropanols via zinc homoenolate and enolized homoenolate |
| title_full_unstemmed |
Transformations of cyclopropanols via zinc homoenolate and enolized homoenolate |
| title_sort |
transformations of cyclopropanols via zinc homoenolate and enolized homoenolate |
| publisher |
Nanyang Technological University |
| publishDate |
2023 |
| url |
https://hdl.handle.net/10356/164550 |
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1759855430382649344 |