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Pericyclic Reactions

All types of pericyclic reactions are concerted and involve a cyclic transition state without any intermediate formed during the reaction. 
  • A pericyclic reaction is characterized as a change in bonding relationships that takes place as a continuous, concerted reorganization of electrons.
  • The term "concerted" specifies that there is one single transition state and therefore no intermediates are involved in the process. To maintain continuous electron flow, pericyclic reactions occur through cyclic transition states.
  • More precisely: The cyclic transition state must correspond to an arrangement of the participating orbitals which has to maintain a bonding interaction between the reaction components throughout the course of the reaction

The Five Major Classes of Pericyclic Reactions

Question for Introduction to Pericyclic Reactions
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Which of the following statements accurately describes pericyclic reactions?
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Electrocyclic Reactions

Electrocyclic reactions are intramolecular pericyclic reactions that involve the rearrangement of π-electrons in an open conjugated system leading to the formation of a cyclic product with a new σ bond at the expense of a π-bond.

Introduction to Pericyclic Reactions | Organic Chemistry

  • Electrocyclic ring closure is the creation of a new sigma bond at the expense of the terminal π orbitals of a conjugated π system.
  • There is a corresponding reorganization of the conjugated pi system. We classify the reaction according to the number of electrons involved.

Introduction to Pericyclic Reactions | Organic Chemistry


Question for Introduction to Pericyclic Reactions
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What is the main characteristic of pericyclic reactions?
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Cycloaddition Reactions

Cycloaddition reactions involve the formation of a cyclic product due to the addition of two different π bond-containing components, which are joined by newly formed two σ bonds at their ends at the expense of two π bonds.

Introduction to Pericyclic Reactions | Organic Chemistry

  • Involves the union of two smaller, independent π systems.
  • Sigma bonds are created at the expense of π bonds.
  • Referred to as [m + n] additions when a system of m conjugated atoms combines with a system of n conjugated atoms.
  • A cycloreversion is simply the reverse of a cycloaddition.

Introduction to Pericyclic Reactions | Organic Chemistry


Question for Introduction to Pericyclic Reactions
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Which type of bonds are formed at the expense of ? bonds in a cycloaddition reaction?
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Cheletropic Reactions

Cheletropic reactions are a special class of cycloadditions or retro-cycloadditions in which the two σ-bonds are either made or broken to the same atom.

Introduction to Pericyclic Reactions | Organic Chemistry

  • A special group of cycloaddition/cycloreversion reactions.
  • Two bonds are formed or broken at a single atom.
  • The nomenclature for cheletropic reactions is the same as for cycloadditions.

Introduction to Pericyclic Reactions | Organic Chemistry


Introduction to Pericyclic Reactions | Organic Chemistry


Introduction to Pericyclic Reactions | Organic Chemistry


Question for Introduction to Pericyclic Reactions
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What is the main characteristic of a cycloaddition reaction?
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Sigmatropic Rearrangements

Involves migration of a sigma bond from one position in a conjugated system to another position in the system, accompanied by reorganization of the connecting π bonds.

Introduction to Pericyclic Reactions | Organic Chemistry

  • The number of π and sigma bonds remains constant.
  • The rearrangement is an [m, n] shift when the sigma bond migrates across m atoms of one system and n atoms of the second system.

Introduction to Pericyclic Reactions | Organic Chemistry


Question for Introduction to Pericyclic Reactions
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What is the definition of a sigmatropic rearrangement?
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Group Transfer Reactions

The concerted transfer of a group from one molecule to another due to concomitant movement of a σ-bond (from one molecule to another) and formation of a new σ-bond (between two molecules) at the expense of a π-bond is generally referred to as group transfer pericyclic reaction

Introduction to Pericyclic Reactions | Organic Chemistry

  • For E.g. The Ene reaction between propene and ethene to give 1-pentene is a  classic example of group transfer reaction.

Introduction to Pericyclic Reactions | Organic Chemistry

Introduction to Pericyclic Reactions | Organic Chemistry

The document Introduction to Pericyclic Reactions | Organic Chemistry is a part of the Chemistry Course Organic Chemistry.
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FAQs on Introduction to Pericyclic Reactions - Organic Chemistry

1. What are pericyclic reactions in chemistry?
Ans. Pericyclic reactions are a class of organic reactions that proceed through a concerted process involving the reorganization of electrons in a cyclic transition state. These reactions are characterized by their stepwise mechanism and cyclic transition state.
2. What are some examples of pericyclic reactions?
Ans. Some examples of pericyclic reactions include electrocyclic reactions, cycloaddition reactions, and sigmatropic rearrangements. These reactions involve the movement of electrons in a cyclic manner to form new bonds or rearrange existing ones.
3. How do pericyclic reactions differ from other types of organic reactions?
Ans. Pericyclic reactions differ from other types of organic reactions in that they proceed through a concerted mechanism, meaning all bond-making and bond-breaking steps occur simultaneously. This is in contrast to stepwise mechanisms seen in many other organic reactions.
4. What is the significance of pericyclic reactions in organic chemistry?
Ans. Pericyclic reactions play a crucial role in organic synthesis as they offer efficient and stereoselective methods for forming complex molecules. They also provide valuable insights into the electronic and steric factors that govern the reactivity of organic compounds.
5. How can pericyclic reactions be used in the design of new pharmaceuticals?
Ans. Pericyclic reactions can be utilized in the synthesis of pharmaceuticals by enabling the construction of complex molecular frameworks with high selectivity and efficiency. This can lead to the development of novel drug candidates with improved therapeutic properties.
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