Design of novel organocatalysts for asymmetric carbon-carbon bonds formation reactions
In this project, a siloxy serine organocatalyst was developed for the asymmetric aldol reaction and Mannich reactions using either water or ionic liquids as the reaction medium. The synthesis of the organocatalyst using Z-protected serine amino acid was economical and operationally simple. In...
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sg-ntu-dr.10356-427392020-11-01T06:06:48Z Design of novel organocatalysts for asymmetric carbon-carbon bonds formation reactions Teo, Yong Chua National Institute of Education DRNTU::Science::Chemistry::Organic chemistry::Organic synthesis In this project, a siloxy serine organocatalyst was developed for the asymmetric aldol reaction and Mannich reactions using either water or ionic liquids as the reaction medium. The synthesis of the organocatalyst using Z-protected serine amino acid was economical and operationally simple. In chapter 2, the siloxy serine organocatalyst was shown to function as an efficient organocatalyst for the asymmetric aldol reaction using cyclic ketones as substrates in water. The direct aldol reaction between a selection of aromatic aldehydes and cyclohexanone resulted in good yields and high enantioselectivities (up to 98%) of anti-configured aldol products. In addition, the catalyst was also able to catalyze the preparation of syn-configured aldol products using TBDPSO-protected hydroxy acetone with a variety of aldehydes. The recyclability of this organocatalyst was also demonstrated using similar substrate scopes by extending the direct aldol reaction to the ionic liquid [bmim][BF4]. It is worth to note that the organocatalyst can be reused up to four times with comparable yields and selectivities (up to 92% ee). Comparable results were also obtained in the case TBDPSO-protected hydroxy acetone as the aldol donor. RP5/06 2011-01-10T04:37:47Z 2011-01-10T04:37:47Z 2010 2010 Research Report http://hdl.handle.net/10356/42739 en 33 p. application/pdf |
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DRNTU::Science::Chemistry::Organic chemistry::Organic synthesis Teo, Yong Chua Design of novel organocatalysts for asymmetric carbon-carbon bonds formation reactions |
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In this project, a siloxy serine organocatalyst was developed for the asymmetric aldol reaction and Mannich reactions using either water or ionic liquids as the reaction medium. The synthesis of the organocatalyst using Z-protected serine amino acid was economical and operationally simple.
In chapter 2, the siloxy serine organocatalyst was shown to function as an efficient organocatalyst for the asymmetric aldol reaction using cyclic ketones as substrates in water. The direct aldol reaction between a selection of aromatic aldehydes and cyclohexanone resulted in good yields and high enantioselectivities (up to 98%) of anti-configured aldol products. In addition, the catalyst was also able to catalyze the preparation of syn-configured aldol products using TBDPSO-protected hydroxy acetone with a variety of aldehydes. The recyclability of this organocatalyst was also demonstrated using similar substrate scopes by extending the direct aldol reaction to the ionic liquid [bmim][BF4]. It is worth to note that the organocatalyst can be reused up to four times with comparable yields and selectivities (up to 92% ee). Comparable results were also obtained in the case TBDPSO-protected hydroxy acetone as the aldol donor. |
| author2 |
National Institute of Education |
| author_facet |
National Institute of Education Teo, Yong Chua |
| format |
Research Report |
| author |
Teo, Yong Chua |
| author_sort |
Teo, Yong Chua |
| title |
Design of novel organocatalysts for asymmetric carbon-carbon bonds formation reactions |
| title_short |
Design of novel organocatalysts for asymmetric carbon-carbon bonds formation reactions |
| title_full |
Design of novel organocatalysts for asymmetric carbon-carbon bonds formation reactions |
| title_fullStr |
Design of novel organocatalysts for asymmetric carbon-carbon bonds formation reactions |
| title_full_unstemmed |
Design of novel organocatalysts for asymmetric carbon-carbon bonds formation reactions |
| title_sort |
design of novel organocatalysts for asymmetric carbon-carbon bonds formation reactions |
| publishDate |
2011 |
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http://hdl.handle.net/10356/42739 |
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1683494350350188544 |