- It is a chemical bond formed from the transfer of electrons from metal atoms to non-metal atoms
- Metal atoms donate valence electrons to form positive ions (cations, Mb+) and achieve the stable duplet or octet electron arrangement of the noble gases
- Non-metal atoms receive electrons to form negative ions (anions, Xa-) and achieve the stable duplet or octet electron arrangement of the noble gases
- Cations and anions are attracted to each other by strong electrostatic force of attraction
| Metal | + | Non-metal | –> | Ionic compound |
| Sodium | + | bromine | –> | Sodium bromide |
| Calcium | + | chlorine | –> | Calcium chloride |
| Lithium | + | oxygen | –> | Lithium oxide |
| Aluminium | + | nitrogen | –> | Aluminium nitride |
Group 1
- A lithium atom with an electron arrangement of 2.1 achieves stability after it donates one valence electron to form a lithium ion, Li+. The electron arrangement of the lithium ion, Li+, is 2 with stable duplet electron arrangement.
- A sodium atom with an electron arrangement of 2.8.1 achieves stability after it donates one valence electron to form a sodium ion, Na+. The electron arrangement of the sodium ion, Na+, is 2.8 with stable octet electron arrangement.
- A potassium atom with an electron arrangement of 2.8.8.1 achieves stability after it donates one valence electron to form a potassium ion, K+. The electron arrangement of the potassium ion, K+, is 2.8.8 with stable octet electron arrangement.
- A magnesium atom with an electron arrangement of 2.8.2 achieves stability after it donates two valence electrons to form a magnesium ion, Mg2+. The electron arrangement of the magnesium ion, Mg2+, is 2.8 with stable octet electron arrangement.
- A calcium atom with an electron arrangement of 2.8.8.2 achieves stability after it donates two valence electrons to form a calcium ion, Ca2+. The electron arrangement of the calcium ion, Ca2+, is 2.8.8 with stable octet electron arrangement.
- An aluminium atom with an electron arrangement of 2.8.8.3 achieves stability after it donates three valence electrons to form an alumium ion, Al3+. The electron arrangement of the aluminium ion, Al3+, is 2.8.8 with stable octet electron arrangement.
Group 15
- A nitrogen atom with an electron arrangement of 2.5 achieves stability after it accepts three valence electrons to form a nitride ion, N3-. The electron arrangement of the nitride ion, N3-, is 2.8 with stable octet electron arrangement.
- A phosphorus atom with an electron arrangement of 2.8.5 achieves stability after it accepts three valence electrons to form a phosphoride ion, P3-. The electron arrangement of the phosphoride ion, P3-, is 2.8.8 with stable octet electron arrangement.
- An oxygen atom with an electron arrangement of 2.6 achieves stability after it accepts two valence electrons to form a oxide ion, O2-. The electron arrangement of the oxide ion, O2-, is 2.8 with stable octet electron arrangement.
- A sulphur atom with an electron arrangement of 2.8.6 achieves stability after it accepts two valence electrons to form a sulphide ion, S2-. The electron arrangement of the sulphide ion, S2-, is 2.8.8 with stable octet electron arrangement.
- A fluorine atom with an electron arrangement of 2.7 achieves stability after it accepts one valence electron to form a fluoride ion, F -. The electron arrangement of the fluoride ion, F -, is 2.8 with stable octet electron arrangement.
- A chlorine atom with an electron arrangement of 2.8.7 achieves stability after it accepts one valence electron to form a chloride ion, Cl -. The electron arrangement of the chloride ion, Cl -, is 2.8.8 with stable octet electron arrangement.
- Cation Mb+
- Anion Xa-
- Formula of an ionic compound formed, MaXb
| Metal atom, M | Non-metal atom, X | Ionic Compound |
| Group 1 | Group 15 | M3X |
| Group 1 | Group 16 | M2X |
| Group 1 | Group 17 | MX |
| Group 2 | Group 15 | M3X2 |
| Group 2 | Group 16 | MX |
| Group 2 | Group 17 | MX2 |
| Group 13 | Group 15 | MX |
| Group 13 | Group 16 | M2X3 |
| Group 13 | Group 17 | MX3 |
- Sodium chloride (NaCl)
- Magnesium oxide (MgO)
- Calcium sulphide (CaS)
- Potassium oxide (K2O)
- Magnesium fluoride (MgF2)
Structure of ionic compounds
- The oppositely-charged ions, Mb+ and Xa- are attracted to each other by a strong electrostatic force.
- It form a rigid 3-dimensional lattice structure
- Formed crystal.
- Giant ionic lattice.
