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First teaching 2023

First exams 2025

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Lewis Acid & Base Reactions (HL) (HL IB Chemistry)

Revision Note

Philippa Platt

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Lewis Acid & Base Reactions

Formation of coordinate bonds

  • When ammonia, NH3, and boron trifluoride, BF3, react a coordinate bond is formed 
  • This occur as the lone pair on the nitrogen atom in NH3 can be donated to the boron atom in BF3, creating a molecule of NH3BF3
  • NH3 reacts as a Lewis base as is donates a lone pair of electrons and BF3 acts as a Lewis acid
  • Only electron pairs are being donated and accepted
  • In this case, neither compound reacts as an Brønsted-Lowry acid or Brønsted-Lowry base as no protons (H+ ions) are being donated or accepted

Diagram showing boron trifluoride acting as a Lewis acid and ammonia acting as a Lewis base

Diagram showing boron trifluoride acting as a Lewis acid and ammonia acting as a Lewis base

Ammonia donates a lone pair of electrons to form a coordinate bond 

  • Here boron forms three sp2 hybridised orbitals leaving a vacant 2pz orbital which allows the lone pair on the nitrogen atom to form a dative covalent bond

Boron forms three sp2 hybridised orbitals

Diagram to show the hybridisation of the boron atom

Hybridisation of the boron atom 

Electrophiles and Nucleophiles

  • An electrophile is an electron-deficient species that accepts a lone pair from another reactant to form a new covalent bond
    • An electrophile is therefore a Lewis acid
  • A nucleophile is an electron-rich species that donates a lone pair to another reactant to form a new covalent bond
    • A nucleophile is therefore a Lewis base

Lewis acids behave as electrophiles and Lewis bases act as nucleophiles

lewis-acid-and-bases-acting-as-electrophiles-and-nucleophiles

The carbocation, C+(CH3)3 is accepting a pair of electrons from the bromide ion, Br

Worked example

Identify the Lewis acid and Lewis base in the following reaction

Methanoate ion reacting with water

Answer

  • The Lewis acid is water, H2O
    • The hydrogen in the water molecule is accepting a pair of electrons leaving an OH- ion
  • The Lewis base is the methanoate ion, HCOO
    • The lone pair of electrons in the methanoate ion forms a coordinate bond with one of the hydrogens from the water molecule
    • We have seen previously that water can act as a Brønsted-Lowry acid or base, so it should be no surprise that water can act as both a Lewis acid or base depending on how it is interacting with other species
  • Lewis acids and bases can also be seen in complex ions
  • In the case of a complex ion, such as hexaaquacopper(II), the water molecule is acting as a Lewis base and the metal ion is acting as a Lewis acid
    • Copper(II), like other transition metals, can form a complex due to a partially occupied d subshell
    • Cu2+ (aq) + 6H2O (l) → [Cu(H2O)6]2+ (aq)

Diagram showing the formation of the hexaaquacopper(II) complex

hexaquacopperii-complex

Hexaaquacopper(II) complex 

  • The Cu2+ ion acts as a Lewis acid and electrophile as it is accepting a lone pair of electrons from water
  • The water molecules are acting as Lewis bases and nucleophiles as they are donating a lone pair of electrons to the Cu2+ ion
    • The cyanide ion, CN  and ammonia , NH3 , are examples of Lewis bases and they can also act as nucleophiles 

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Philippa Platt

Author: Philippa Platt

Expertise: Chemistry

Philippa has worked as a GCSE and A level chemistry teacher and tutor for over thirteen years. She studied chemistry and sport science at Loughborough University graduating in 2007 having also completed her PGCE in science. Throughout her time as a teacher she was incharge of a boarding house for five years and coached many teams in a variety of sports. When not producing resources with the chemistry team, Philippa enjoys being active outside with her young family and is a very keen gardener.