Chapter 8: Elimination Reactions

Building Double Bonds


Introduction

Elimination reactions remove atoms or groups from molecules and create double bonds.

These reactions are closely related to substitution reactions and often compete with them.

Two mechanisms dominate:

  • E2
  • E1

Understanding their similarities and differences helps organize much of Organic Chemistry I.


The Big Idea

Instead of replacing one group with another, elimination reactions remove atoms and generate π bonds.


E2 Reactions

A Concerted Mechanism

Bond formation and bond breaking occur simultaneously. No intermediates are formed.


Characteristics

  • One-step mechanism.
  • Strong bases required.
  • No carbocation intermediate.
  • Anti-periplanar geometry important.

Preferred Substrates

Best: tertiary, secondary. Possible: primary (with a bulky, non-nucleophilic base such as tert-butoxide, which favors elimination over SN2).


Why It Happens

Strong bases remove protons while leaving groups depart.


E1 Reactions

A Stepwise Mechanism

The leaving group departs first. A carbocation intermediate forms. Elimination occurs afterward.


Characteristics

  • Two-step mechanism.
  • Weak bases acceptable.
  • Carbocation intermediate.
  • Rearrangements possible.

Preferred Substrates

Best: tertiary. Possible: secondary.


Similarity to SN1

E1 and SN1 reactions share carbocation intermediates and often occur under similar conditions.


Comparing E1 and E2

Feature E2 E1
Mechanism One-step Two-step
Intermediate None Carbocation
Base Strong Weak acceptable
Rearrangements No Possible
Preferred substrate Secondary and tertiary Tertiary

Competition Between Pathways

Many reactions can proceed through substitution, elimination, or mixtures of both.

The outcome depends upon:

  • substrate structure,
  • nucleophile strength,
  • base strength,
  • solvent,
  • temperature.

Understanding this competition is one of the central themes of Organic Chemistry I.


Thinking About Elimination

Helpful questions include:

  • Is a strong base present?
  • Can a carbocation form?
  • Is elimination favored over substitution?

Gentle Exercises

Determine: whether E1 or E2 is favored; whether substitution may compete.


Common Mistakes

Treating E1 and E2 as Isolated Reactions

Better approach:

Compare them to SN1 and SN2.


Forgetting the Geometric Requirements of E2

Better approach:

E2 elimination requires the departing hydrogen and the leaving group to be anti-periplanar — positioned on opposite sides of the molecule in the same plane. When a molecule cannot achieve this geometry due to its conformation, E2 is disfavored regardless of other conditions. Conformation matters.


Self-Assessment

I can:

☐ Distinguish E1 and E2.

☐ Understand carbocation intermediates.

☐ Appreciate the importance of strong bases.

☐ Understand competition with substitution.


Further Study

Reading

LibreTexts Organic Chemistry — Ch. 11, Substitution and Elimination — E1 and E2 mechanisms.

Videos

Organic Chemistry Tutor — E1 vs. E2 comparisons.


Looking Ahead

Elimination reactions create double bonds. These double bonds become sites of reactivity and give rise to addition reactions.