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Stereoisomers02:32

Stereoisomers

13.0K
On the basis of mirror symmetry, stereoisomers of an organic molecule can be further classified into diastereomers and enantiomers. Diastereomers are stereoisomers that are not mirror images of each other. Substituted alkenes, such as the cis and trans isomers of 2-butene, are diastereomers, as these molecules exhibit different spatial orientations of their constituent atoms, are not mirror images of each other, and do not interconvert. Here, the interconversion is suppressed due to...
13.0K
Isomerism02:43

Isomerism

18.5K
Isomers are molecules with the same molecular formula but different structural arrangements. Isomers can be further classified into constitutional isomers and stereoisomers. Constitutional isomers differ in the connectivity of their constituent atoms. For example, 2-butanol and diethyl ether are constitutional isomers, as they have the same chemical formula, C4H10O, but differ in the connectivity of the carbon and oxygen atoms. Constitutional isomers have different physical and chemical...
18.5K
Stereoisomerism02:52

Stereoisomerism

12.0K
Isomerism in Complexes
Isomers are different chemical species that have the same chemical formula.
Transition metal complexes often exist as geometric isomers, in which the same atoms are connected through the same types of bonds but with differences in their orientation in space. Coordination complexes with two different ligands in the cis and trans positions from a ligand of interest form isomers. For example, the octahedral [Co(NH3)4Cl2]+ ion has two isomers (Figure 1) In the cis...
12.0K
Stereoisomerism of Cyclic Compounds02:33

Stereoisomerism of Cyclic Compounds

8.9K
In this lesson, we delve into the role of ring conformation and its stability, which determines the spatial arrangement and, consequently, the molecular symmetry and stereoisomerism of cyclic compounds. 1,2-Dimethylcyclohexane is used as a case study to evaluate the possible number of stereoisomers. Here, given the multiple (n = 2) chiral centers, there are 2n = 4 possible configurations that lack a plane of symmetry, as the ring skeleton exists in a non-planar chair conformation. In addition,...
8.9K
Molecules with Multiple Chiral Centers02:25

Molecules with Multiple Chiral Centers

11.8K
Molecules that possess multiple chiral centers can afford a large number of stereoisomers. For instance, while some molecules like 2-butanol have one chiral center, defined as a tetrahedral carbon atom with four different substituents attached, several molecules like butane-2,3-diol have multiple chiral centers. A simple formula to predict the number of stereoisomers possible for a molecule with n chiral centers is 2n. However, there can be a lower number where some of the stereoisomers are...
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Fischer Projections02:18

Fischer Projections

13.3K
Learning to draw Fischer projections of molecules and understanding their relevance plays a crucial role in the visual depiction of organic molecules. A Fischer projection is a two-dimensional projection on a planar surface to simplify the three-dimensional wedge–dash representation of molecules. This is especially helpful in the case of molecules with multiple chiral centers that can be difficult to draw. Here, all the bonds of interest are represented as horizontal or vertical lines.
13.3K

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Video Experimental Relacionado

Updated: Jul 12, 2025

Coulomb Explosion Imaging as a Tool to Distinguish Between Stereoisomers
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Coulomb Explosion Imaging as a Tool to Distinguish Between Stereoisomers

Published on: August 18, 2017

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Moléculas de imagen especular que se convierten entre sí

Sojung F Kim1, Richmond Sarpong1

  • 1Department of Chemistry, University of California, Berkeley, Berkeley, CA, USA.

Science (New York, N.Y.)
|October 26, 2023
PubMed
Resumen
Este resumen es generado por máquina.

Un nuevo catalizador utiliza la luz para controlar la manipulación molecular en las mezclas. Este avance ofrece nuevas formas de crear moléculas quirales específicas para diversas aplicaciones.

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Área de la Ciencia:

  • Química
  • La fotoquímica
  • Catálisis

Sus antecedentes:

  • La quiralidad es crucial en los productos farmacéuticos y la ciencia de los materiales.
  • El control de la quiralidad en las mezclas moleculares sigue siendo un desafío importante.
  • Es muy deseable desarrollar métodos eficientes y selectivos para la inducción quiral.

Objetivo del estudio:

  • Desarrollar un nuevo catalizador de luz para mejorar la quiralidad.
  • Investigar las capacidades multitarea del catalizador en mezclas moleculares.
  • Para demostrar un nuevo enfoque para la síntesis asimétrica.

Principales métodos:

  • Utilizó un catalizador fotoactivo para las transformaciones enantioselectivas.
  • Se emplean técnicas espectroscópicas para controlar el progreso de la reacción y la quiralidad.
  • Las mezclas moleculares analizadas para cuantificar el exceso enantiomérico.

Principales resultados:

  • El catalizador mejoró con éxito la quiralidad en mezclas moleculares bajo irradiación de luz.
  • Demostró la capacidad del catalizador para realizar múltiples funciones, incluida la activación y la inducción quiral.
  • Se obtienen altos niveles de enantioselectividad en las moléculas objetivo.

Conclusiones:

  • La catálisis impulsada por la luz ofrece una herramienta poderosa para controlar la quiralidad molecular.
  • El catalizador multitarea desarrollado proporciona una ruta eficiente a los compuestos enriquecidos enantioméricamente.
  • Este trabajo abre nuevas vías para la síntesis asimétrica y el diseño de materiales quirales.