Creado por Niamh Ryan
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Ionic bonding involves the complete transfer of electrons from one atom to another. It is based around the principle of the Octet Rule. The Octet Rule states that it is most favourable for atoms to have a full outer shell. When an ionic bond is formed, one atom gives away one or more electrons so as to empty its outermost shell, and another atom accepts those electrons so that its outermost shell will be complete. The diagram below shows the formation of sodium chloride, commonly known as table salt.
When they exist as individual atoms, both sodium and chlorine are in unfavourable arrangements. Sodium would like to get rid of its outermost electron, leaving its second shell as a full outer shell. Chlorine would like to gain one electron to make its third shell a full outer shell. Sodium donates its unwanted electron to chlorine. As sodium loses an electron, it becomes positively charged. Chlorine gains an electron, so it becomes a negatively charged ion called chloride. The two ions have opposite charges, so they attract each other. The strong electrostatic attraction between the ions is known as an ionic bond.
Ions with different charges The sodium ion is \(Na^+\) so only one chloride ion is needed to stabilise it. However, all the metals in Group 2 form 2+ ions and so need two halides to stabilise them. For example, sodium will form \(NaCl\) but calcium will form \(CaCl_2\). The calcium atom gives away two electrons, one to each chlorine. The formulae of some ions can be found in the flashcards section - it is important that you learn these off by heart.
Formation of lattices Ionic compounds form lattices, known as giant ionic structures Millions of ions are held together in a regular repeating structure Ions in the sodium chloride lattice are arranged in a cubic structure - each ion has six nearest neighbours of the opposite charge
This is the unit cell of sodium chloride.
Form giant ionic structures - see previous page High melting points - Large amount of energy needed to overcome strong attractive force between oppositely charged ions Do not conduct electricity in their solid forms - Ions are held in fixed positions in lattice so movement of charge is not possible Conduct electricity when they are molten or dissolved in water - Lattice breaks down and ions can move freely Brittle - If a stress is applied to the crystal, the ion layers move slightly, bringing like charges in contact with each other. These repel each other, causing the crystal to fracture.
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