Syllabus Edition

First teaching 2023

First exams 2025

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Binary Ionic Compounds (SL IB Chemistry)

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Chemistry

Binary Ionic Compounds

What is a binary ionic compound?

  • A binary ionic compound is composed of ions of two different elements
    • They consist of a metal cation and a non-metal anion
  • For example, sodium and chlorine react together to form the binary ionic compound, sodium chloride 

Sodium and chlorine atoms react to form sodium chloride  

Ionic bonding diagram showing a sodium atom reacting with a chlorine atom to form sodium chloride

Cations and anions bond together using strong electrostatic forces, which require a lot of energy to overcome

What is ionic bonding?

  • One definition of ionic bonding is:

'the force of attraction between oppositely charged species / ions'

  • Cations and anions are oppositely charged and therefore attracted to each other
  • Electrostatic attractions are formed between the oppositely charged ions to form ionic compounds
  • This form of attraction is very strong and requires a lot of energy to overcome
    • This causes high melting points in ionic compounds

Naming Ionic Compounds

Nomenclature of binary ionic compounds

  • Binary ionic compounds are named with the cation first, followed by the anion
    • The anion adopts the suffix “ide”
  • For example, when sodium reacts with iodine:
    • The name of the binary ionic compound starts with the metal, sodium
    • The name of the binary ionic compound ends with the nonmetal, including the "ide" suffix
      • Iodine becomes iodide
    • So, the binary ionic compound formed when sodium reacts with iodine is sodium iodide

Worked example

Give the IUPAC names of the binary ionic compounds formed in the following reactions:

  1. Lithium + sulfur
  2. Calcium + nitrogen
  3. Sodium + hydrogen

 

Answer 1:

  • The metal is lithium
  • The nonmetal is sulfur, which becomes sulfide when it is bonded to a metal
  • Therefore, the name of the binary ionic compound is lithium sulfide

Answer 2:

  • The metal is calcium
  • The nonmetal is nitrogen, which becomes nitride when it is bonded to a metal
  • Therefore, the name of the binary ionic compound is calcium nitride

Answer 3:

  • The metal is sodium
  • The nonmetal is hydrogen, which becomes hydride when it is bonded to a metal
  • Therefore, the name of the binary ionic compound is sodium hydride
  • The following is a list of binary ionic compounds, because they contain a metal cation and a nonmetal anion:
    • Lithium fluoride
    • Sodium chloride
    • Potassium bromide
    • Magnesium sulfide
    • Calcium oxide

What is the charge of an ionic compound?

  • Ionic compounds are formed from a metal and a non-metal bonded together
  • Ionic compounds are electrically neutral; the positive charges equal the negative charges
  • This means that the overall charge of an ionic compound is 0
    • They are neutral

Charges on positive metal ions

  • All metals form positive ions
    • There are some non-metal positive ions such as ammonium, NH4+, and hydrogen, H+
  • The metals in Group 1, Group 2 and Group 13 have a charge of 1+ and 2+ and 3+ respectively
  • The charge on the ions of the transition elements can vary which is why Roman numerals are often used to indicate their charge
    • This is known as Stock notation after the German chemist Alfred Stock
  • Roman numerals are used in some compounds formed from transition elements to show the charge (or oxidation state) of metal ions
    • Eg. in copper(II) oxide, the copper ion has a charge of 2+ whereas in copper(I) nitrate, the copper has a charge of 1+

Charges on negative nonmetal ions

  • The non-metals in groups 15 to 17 have a negative charge and the suffix ‘ide’
    • Eg. nitride, chloride, bromide, iodide
  • Elements in group 17 gain 1 electron so have a 1- charge, eg. Br
  • Elements in group 16 gain 2 electrons so have a 2- charge, eg. O2–
  • Elements in group 15 gain 3 electrons so have a 3- charge, eg. N3– 

Common charges of elements on the Periodic Table

Periodic table outlining example chemical formula of metal and nonmetal ions

The charges of simple ions depend on their position in the Periodic Table

What are polyatomic ions?

  • Polyatomic ions are sometimes called compound negative ions
  • They are ions that are made up of more than one type of atom
    • There are generally negative ions, although there are some positive ones such as the ammonium ion
  • There are seven polyatomic ions you need to know for IB Chemistry:

Formulae of Polyatomic Ions Table

Ion Formula and charge
Ammonium NH4+
Hydroxide OH
Nitrate NO3
Hydrogencarbonate HCO3
Carbonate
CO32–
Sulfate SO42–
Phosphate PO43–

Worked example

Determine the formulae of the following ionic compounds:

  1. Magnesium chloride
  2. Aluminium oxide
  3. Ammonium sulfate

Answer 1: Magnesium chloride

  • Magnesium is in Group 2 so has a charge of 2+
  • Chlorine is in Group 17 so has a charge of 1-
  • Each magnesium atom needs two chlorine atoms to balance the charges
  • So, the formula is MgCl2 

Answer 2: Aluminium oxide

  • Aluminium is in Group 13 so the ion has a charge of 3+
  • Oxygen is in Group 16 so has a charge of 2-
  • The charges need to be equal, which means that 2 aluminium atoms require 3 oxygen atoms to balance electronically
  • So, the formula is Al2O

Answer 3: Ammonium sulfate

  • Ammonium is a polyatomic ion with a charge of 1+
  • Sulfate is a polyatomic ion and has a charge of 2-
  • To balance the charges, 2 ammonium ions are needed for each sulfate ion
  • Careful: The polyatomic ion needs to be placed in a bracket if more than 1 is needed
  • So, the formula of ammonium sulfate is (NH4)2SO4 

Exam Tip

Remember: Polyatomic ions are ions that contain more than one type of element, such as OH .

If more than one polyatomic ion is needed in a chemical formula, then it is placed inside a bracket with the number of them outside the bracket, e.g. Ca(NO3)2.

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Richard

Author: Richard

Richard has taught Chemistry for over 15 years as well as working as a science tutor, examiner, content creator and author. He wasn’t the greatest at exams and only discovered how to revise in his final year at university. That knowledge made him want to help students learn how to revise, challenge them to think about what they actually know and hopefully succeed; so here he is, happily, at SME.