20.13 : Radical Reactivity: Intramolecular vs Intermolecular

In intermolecular radical reactions, the radical and the radical trap are two different molecules.

The radical trap must be activated and present in high concentrations, and the radical source must have a weak carbon–heteroatom bond.

Now, consider an intramolecular radical reaction, in which a nucleophilic radical adds to a nucleophilic double bond, yielding a cyclized product.

Here, the radical trap is neither activated nor present in excess. The C–S bond is also relatively strong.

Still, such a reaction is feasible, giving a high product yield. Why so?

This is because, for intramolecular reactions, the radical and the radical trap are part of the same molecule and are always held closely, favoring rapid cyclization.

Consequently, the possibility of radical reduction by a hydride donor diminishes.

Moreover, the radical trap is neither highly reactive nor in excess, reducing its chances of reacting with the tin-hydride radical, irrespective of the latter's concentration.

Therefore, intramolecular radical reactions are very efficient and find applications in synthesizing five‐membered rings. Smaller ring sizes exhibit ring strain. Larger ring sizes are not preferred.

Radical reactions can occur either intermolecularly or intramolecularly. In an intermolecular radical reaction, a nucleophilic radical adds to an electrophilic alkene or vice versa. In such reactions, the radical and generally thealkene, which is also called the radical trap, are two different molecules. Additionally, for such intermolecular reactions to occur, the radical trap must be active, present in an excess concentration, and the radical starting material must have aweak carbon–halogen bond.

In contrast, an intramolecular radical reaction involves a radical and a radical trap, which are parts of the same molecule. In such reactions, the radical trap is not activated and is also not present in excess. Moreover, the bonds in the radical starting material are relatively strong. But, still, intramolecular cyclization is enormously favored, with the product being formed in high yields. This is because the radical and the radical trap are part of the same molecule, due to which both are held close to each other. As a result, cyclization occurs rapidly. This rapid cyclization rules out the possibility of radical reduction by a hydride donor.

Lastly, intramolecular reactions are very powerful and efficient. These reactions are often used for synthesizing five‐membered rings over all other ring sizes.

Etiketler

Radical Reactions Intermolecular Intramolecular Nucleophilic Radical Electrophilic Alkene Radical Trap Cyclization Carbon halogen Bond Radical Starting Material High Yields Five membered Rings Synthesis

Bölümden 20:

article

Now Playing

20.13 : Radical Reactivity: Intramolecular vs Intermolecular

Radikal Kimya

1.7K Görüntüleme Sayısı

article

20.1 : Radikaller: Elektronik Yapı ve Geometri

Radikal Kimya

3.8K Görüntüleme Sayısı

article

20.2 : Elektron Paramanyetik Rezonans (EPR) Spektroskopisi: Organik Radikaller

Radikal Kimya

2.4K Görüntüleme Sayısı

article

20.3 : Radikal Oluşum: Genel Bakış

Radikal Kimya

2.0K Görüntüleme Sayısı

article

20.4 : Radikal Oluşumu: Homoliz

Radikal Kimya

3.5K Görüntüleme Sayısı

article

20.5 : Radikal Oluşum: Soyutlama

Radikal Kimya

3.3K Görüntüleme Sayısı

article

20.6 : Radikal Oluşum: Ekleme

Radikal Kimya

1.6K Görüntüleme Sayısı

article

20.7 : Radikal Oluşum: Eliminasyon

Radikal Kimya

1.6K Görüntüleme Sayısı

article

20.8 : Radikal Reaktivite: Genel Bakış

Radikal Kimya

2.0K Görüntüleme Sayısı

article

20.9 : Radikal Reaktivite: Sterik Etkiler

Radikal Kimya

1.9K Görüntüleme Sayısı

article

20.10 : Radikal Reaktivite: Konsantrasyon Etkileri

Radikal Kimya

1.5K Görüntüleme Sayısı

article

20.11 : Radikal Reaktivite: Elektrofilik Radikaller

Radikal Kimya

1.8K Görüntüleme Sayısı

article

20.12 : Radikal Reaktivite: Nükleofilik Radikaller

Radikal Kimya

2.0K Görüntüleme Sayısı

article

20.14 : Radikal Otoksidasyon

Radikal Kimya

2.1K Görüntüleme Sayısı

article

20.15 : Alilik ve Benzilik Alkollerin Radikal Oksidasyonu

Radikal Kimya

1.9K Görüntüleme Sayısı

See More

Telif Hakkı © 2020 MyJove Corporation. Tüm hakları saklıdır