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Reduction of Alkenes: Asymmetric Catalytic Hydrogenation02:17

Reduction of Alkenes: Asymmetric Catalytic Hydrogenation

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Catalytic hydrogenation of alkenes is a transition-metal catalyzed reduction of the double bond using molecular hydrogen to give alkanes. The mode of hydrogen addition follows syn stereochemistry.
The metal catalyst used can be either heterogeneous or homogeneous. When hydrogenation of an alkene generates a chiral center, a pair of enantiomeric products is expected to form. However, an enantiomeric excess of one of the products can be facilitated using an enantioselective reaction or an...
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SN1 Reaction: Stereochemistry02:15

SN1 Reaction: Stereochemistry

8.3K
This lesson provides an in-depth discussion of the stereochemical outcomes in an SN1 reaction.
In the first step of an SN1 reaction, the bond between the electrophilic carbon and the leaving group ionizes to generate the carbocation intermediate. The second step of the mechanism is the nucleophilic attack.
In the formed carbocation, the positively charged carbon is sp2 hybridized with a trigonal planar geometry. As all the three substituents lie on the same plane, a plane of symmetry for the...
8.3K
Racemic Mixtures and the Resolution of Enantiomers02:30

Racemic Mixtures and the Resolution of Enantiomers

18.1K
A racemic mixture, or racemate, is an equimolar mixture of enantiomers of a molecule that can be separated using their unique interaction with chiral molecules or media. Racemic mixtures are denoted by the (±)- prefix. This ‘optical rotation descriptor’ applies to the whole solution of a racemic mixture rather than a specific stereoisomer. Enantiomers typically have the same physical and chemical properties. Hence, they are not easily separable. However, enantiomers can exhibit...
18.1K
Regioselectivity of Electrophilic Additions to Alkenes: Markovnikov's Rule02:17

Regioselectivity of Electrophilic Additions to Alkenes: Markovnikov's Rule

13.9K
If a set of reactants can yield multiple constitutional isomers, but one of the isomers is obtained as the major product, the reaction is said to be regioselective. In such reactions, bond formation or breaking is favored at one reaction site over others.
The hydrohalogenation of an unsymmetrical alkene can yield two haloalkane products, depending on which vinylic carbon takes up the halogen. However, one product usually predominates, where hydrogen adds to the vinylic carbon bearing the...
13.9K
Regioselectivity and Stereochemistry of Acid-Catalyzed Hydration02:34

Regioselectivity and Stereochemistry of Acid-Catalyzed Hydration

8.3K
The rate of acid-catalyzed hydration of alkenes depends on the alkene's structure, as the presence of alkyl substituents at the double bond can significantly influence the rate.
8.3K
Woodward–Hoffmann Selection Rules and Microscopic Reversibility01:34

Woodward–Hoffmann Selection Rules and Microscopic Reversibility

3.0K
Electrocyclic reactions, cycloadditions, and sigmatropic rearrangements are concerted pericyclic reactions that proceed via a cyclic transition state. These reactions are stereospecific and regioselective. The stereochemistry of the products depends on the symmetry characteristics of the interacting orbitals and the reaction conditions. Accordingly, pericyclic reactions are classified as either symmetry-allowed or symmetry-forbidden. Woodward and Hoffmann presented the selection criteria for...
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Related Experiment Video

Updated: May 31, 2025

Facile Preparation of 4-Substituted Quinazoline Derivatives
11:51

Facile Preparation of 4-Substituted Quinazoline Derivatives

Published on: February 15, 2016

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Dynamic Kinetic Resolution-Based Asymmetric Transfer Hydrogenation of Racemic 2-Substituted Quinolines.

Ming-Rong Liang1, Xian Du1, Jian Lin1

  • 1Faculty of Pharmaceutical Sciences, Shenzhen University of Advanced Technology, Shenzhen 518107, China.

Journal of the American Chemical Society
|January 22, 2025
PubMed
Summary

This study presents a novel method for synthesizing chiral tetrahydroquinolines (THQs) with both endo- and exocyclic chiral centers. The dynamic kinetic resolution approach achieves high yields and stereoselectivity, expanding options for medicinal chemistry.

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Related Experiment Videos

Last Updated: May 31, 2025

Facile Preparation of 4-Substituted Quinazoline Derivatives
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A Microwave-Assisted Direct Heteroarylation of Ketones Using Transition Metal Catalysis
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Efficient Synthesis of All-Carbon Quaternary Centers via the Conjugate Addition of Functionalized Monoorganozinc Bromides
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Area of Science:

  • Organic Chemistry
  • Medicinal Chemistry
  • Asymmetric Synthesis

Background:

  • Chiral tetrahydroquinolines (THQs) are crucial pharmacophores in many bioactive molecules.
  • Existing synthetic methods often struggle with the selective construction of THQs possessing both endo- and exocyclic chiral centers.
  • Developing efficient routes to these complex chiral structures is a significant challenge in synthetic chemistry.

Purpose of the Study:

  • To develop a novel synthetic strategy for chiral tetrahydroquinolines (THQs) with consecutive endo- and exocyclic stereocenters.
  • To address the limitations of current methods in constructing THQs with multiple, complex chiral centers.
  • To expand the accessible chemical space of chiral N-heterocycles for drug discovery applications.

Main Methods:

  • Utilized a dynamic kinetic resolution (DKR) strategy.
  • Employed transfer hydrogenation of racemic 2-substituted quinolines.
  • Focused on achieving asymmetric transformation of electron-deficient aromatic N-heterocycles.

Main Results:

  • Successfully synthesized structurally novel chiral THQs with consecutive endo- and exocyclic chiral centers.
  • Achieved excellent yields and high stereoselectivities (generally >20:1 dr and >90% ee) for 59 examples.
  • Demonstrated the ability to create up to three consecutive stereocenters within the THQ framework.

Conclusions:

  • The DKR-based transfer hydrogenation provides a mechanistically novel and efficient route to complex chiral THQs.
  • This method overcomes previous synthetic challenges, enabling access to previously difficult-to-obtain chiral N-heterocycles.
  • The developed approach significantly broadens the scope of chiral N-heterocycles available for medicinal chemistry and drug development.