DP Chemistry: 18.1 Lewis acids & bases

18.1 Lewis acids & bases

Written specifically for students to provide help and support for the IB Diploma chemistry programme this page provides full coverage of the syllabus content of Topic 18.1 Lewis acids & bases. It encourages you to think critically and provides many questions with full worked answers so that you can monitor and improve your knowledge and understanding.

Learning outcomes

After studying this topic you should be able to:

Understand:

  • Lewis acids are non-bonding (lone) electron pair acceptors and Lewis bases are non-bonding (lone) electron pair donors.
  • Lewis acids react with Lewis bases to form coordinate bonds.
  • Nucleophiles act as Lewis bases and electrophiles act a Lewis acids.

Apply your knowledge to:

  • Apply Lewis acid–base theory to both inorganic and organic chemistry in order to identify the role of the reacting species.

Relationships & vocabulary

Nature of science

Scientific theories can be supported, falsified or replaced by new theories. By considering lone pairs of electrons Gilbert Lewis extended acid-base theory to a wider field of applications. Lewis theory extends, but does not falsify Brønsted–Lowry theory.

International-mindedness

Gilbert Lewis, who was from the USA. (and Mikhail Usanovich, who was from the USSR), provide yet further examples of how acid-base theories have developed through collaboration and competition by many scientists from many different countries.

For more examples and links to International mindedness, Theory of knowledge, utilization etc. see separate page which covers all of Topics 8 & 18: Acids & bases.

Vocabulary

Lewis acidLewis basenucleophileelectrophile

Learning slides

You can use this slide gallery for learning or for reviewing concepts and information. It covers all the key points in the syllabus for this sub-topic.

  

Something to think about

BrØnsted and Lowry independently put forward their acid-base theory based on proton transfer in 1923. In the same year Gilbert Lewis from the United States of America. proposed an even more encompassing theory by extending it to the movement of pairs of electrons. Lewis bases are able to donate a non-bonding pair of electrons to form a coordinate bond with a Lewis acid which is itself deficient in electrons. It is worth emphasising that organic reaction mechanisms, such as nucleophilic substitution SN2 reactions, are in fact Lewis acid-base reactions where 'curly arrows' are used to indicate the movement of pairs of electrons. Lewis acids and bases do not have to involve hydrogen or hydrogen ions and classic Lewis acids include transition metal ions in ligand replacement reactions.

Although that is the limit of IB definitions there are later even more all-encompassing definitions of acids and bases. One of the better known is that of Mikhail Usanovich (1894 – 1981) (see right) who in 1939 designated an acid as any electropositive or electrophilic substance and a base as any nucleophilic substance, i.e. an acid is anything that accepts negative species (including a single electron) or donates positive species. Usanovich worked in the USSR and his work was only truly recognised in the West much later. The essential difference between the Gilbert Lewis and Mikhail Usanovich theories is that the Lewis definition is concerned with the making and/or breaking of chemical bonds whereas the Usanovich definition is more concerned with the physical movement of electrons and thus strays very much more into the concept of oxidation and reduction. The property of acids reacting with reactive metals such as zinc to produce hydrogen or the reaction of chlorine with sodium to produce sodium chloride is covered by this definition whereas it is not covered by the Arrhenius, BrØnsted-Lowry or Lewis definitions.

Test your understanding of this topic

(Note that your teacher may have restricted your access to some or all of these questions and worked answers if they are going to use them as a class test or set them as an assignment.)

For ten 'quiz' multiple choice questions with the answers explained see MCTest: Lewis acids & bases.

For short-answer questions see Lewis acids & bases questions.

More resources

1. A short video by Richard Thornley which clearly illustrates the difference between the BrØnsted-Lowry and the Lewis definitions.

BrØnsted-Lowry & Lewis definitions  

2. Another video emphasising how to recognise Lewis acids and Lewis bases by ChemistNATE.

  Recognising Lewis acids and bases

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