Jung Taek Oh scite author profile

Jung Taek Oh

4Publications

62Citation Statements Received

111Citation Statements Given

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107

Affiliations

Myongji University, Hanyang University

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Conductance Control in Stabilized Carotenoid Wires

Maeng

Kim

Lee

et al. 2010

Chemistry A European J

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Tunable carots: Construction of the stable carotenoid wires with a specific conductance value is possible by the attachment of phenyl groups to the polyene chain to overcome the in vitro instability of natural carotenoids, the perfect molecular wires utilized in various biological processes. Diverse electronic natures of the substituents on the phenyl groups provide the carotenoids with tunable conductance (see figure).

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Stereoselective Synthesis of Allylic Sulfones via the Oxonia-Cope Rearrangement of Homoallylic Alcohols Containing a Homoallylic Sulfone Moiety

Jung

Min

et al. 2006

J. Org. Chem.

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The homoallylic alcohols 3 that can be prepared by the indium-mediated addition of haloallylic sulfones 1 to aldehydes 2 undergo the oxonia-Cope rearrangement with aldehydes 2 to give rise to the allylic sulfones 4 containing a conjugated diene moiety in a highly stereoselective manner. Electron-rich aldehydes preferentially participate in this oxonia-Cope rearrangement with the homoallylic alcohols 3. Excellent correlations of the stereochemistry (anti-3 to trans-allylic sulfone 4 and syn-3 to cis-allylic sulfone 4) have been observed in the oxonia-Cope rearrangement.

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Origin of the Diastereoselection in the Indium-Mediated Addition of Haloallylic Sulfones to Aldehydes

Min

Jung

et al. 2006

Org. Lett.

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[reaction: see text] The R(1) substituents at C(2) of the haloallylic sulfones 1 play a pivotal role in controlling the diastereoselectivity of the indium-mediated addition reaction to benzaldehyde to produce the homoallylic alcohols 3. The R(1) Me group of 1 prefers the chair form in the In-coordinated six-membered cyclic transition state to give anti-3a, and the R(1) Ph group of 1 favors the twist boat form to give syn-3n, both in a high 13:1 selectivity.

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Convergent synthesis of new types of stabilized carotenoid compounds

Kim

Lim

Meang

et al. 2011

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A convergent synthetic method for new types of carotenoid compounds containing phenyl substituents at C(13) and C(13') has been developed by the coupling of allylic sulfone and 2,7-diphenyloct-4-enedials, followed by the double elimination strategy. These carotenoid compounds are fairly stable and legitimate candidates for nanosized molecular wires, which show diverse conductance values according to the electronic nature of the substituent group in the phenyl ring.

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Jung Taek Oh

Conductance Control in Stabilized Carotenoid Wires

Stereoselective Synthesis of Allylic Sulfones via the Oxonia-Cope Rearrangement of Homoallylic Alcohols Containing a Homoallylic Sulfone Moiety

Origin of the Diastereoselection in the Indium-Mediated Addition of Haloallylic Sulfones to Aldehydes

Convergent synthesis of new types of stabilized carotenoid compounds

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