Ionic Bonding & Structures | Edexcel International AS Chemistry Revision Notes 2017

Ionic Dot-and-Cross Diagrams

As a general rule, metals are on the left of the periodic table and nonmetals are on the right-hand side
Ionic bonding involves the transfer of electrons from a metallic element to a non-metallic element
Transferring electrons usually leaves the metal and the non-metal with a full outer shell
Metals lose electrons from their valence shell forming positively charged cations
Non-metal atoms gain electrons forming negatively charged anions
Once the atoms become ions, their electronic configurations are the same as a noble gas
- A potassium ion (K⁺) has the same electronic configuration as argon: [2,8,8]⁺
- A chloride ion (Cl^-) also has the same electronic configuration as argon: [2,8,8]^-

Chemical Bonding Metals forming Cations, downloadable AS & A Level Chemistry revision notes

Forming cations by the removal of electrons from metals

Chemical Bonding Non-metals Forming Anions, downloadable AS & A Level Chemistry revision notes

Forming anions by the addition of electrons to nonmetals

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
The ionic bond is the electrostatic attraction formed between the oppositely charged ions, which occurs in all directions ( this called non-directional bonding)
This form of attraction is very strong and requires a lot of energy to overcome
- This causes high melting points in ionic compounds

Chemical Bonding Forming Ionic Compounds, downloadable AS & A Level Chemistry revision notes

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

The ions form a lattice structure which is an evenly distributed crystalline structure
Ions in a lattice are arranged in a regular repeating pattern so that positive charges cancel out negative charges
The attraction between the cations and anions is occurring in all directions
- Each ion is attracted to all of the oppositely charged ions around it
Therefore the final lattice is overall electrically neutral

Ionic solids are arranged in lattice structures

These are diagrams that show the arrangement of the outer-shell electrons in an ionic or covalent compound or element
The electrons are shown as dots and crosses
In a dot and cross diagram:
- Only the outer electrons are shown
- The charge of the ion is spread evenly which is shown by using brackets
- The charge on each ion is written at the top right-hand corner

Ionic bonds are formed when metal atoms transfer electrons to a non-metal to form a positively charged and negatively charged ion
The atoms achieve a noble gas configuration

Dot-and-cross diagrams of ionic compounds in which one of the atoms transfers their valence electrons to the other

Calcium is a Group 2 metal
- It loses its 2 outer electrons to form a calcium ion with a +2 charge (Ca²⁺)
Fluorine is a Group 7 non-metal
- It gains 1 electron to form a fluoride ion with a -1 charge (F^-)
As before, the positive and negative ions are attracted to each other via an ionic bond
However, to cancel out the 2+ charge of the calcium ion, 2 fluorine atoms are needed
- Each fluorine atom can only accept 1 electron from the calcium atom
- 2 fluoride ions will be formed
Calcium fluoride is made when 1 calcium ion and 2 fluoride ions form ionic bonds, CaF₂
The final ionic solid of CaF₂ is neutral in charge

Draw a dot cross diagram for lithium nitride

Answer

Chemical Bonding Lithium Nitride Cross Diagram, downloadable AS & A Level Chemistry revision notes

Dot and cross diagram to show the ionic bonding in lithium nitride

Draw a dot cross diagram for aluminium oxide

Answer

Chemical Bonding Aluminium Oxide Cross Diagram, downloadable AS & A Level Chemistry revision notes

Dot and cross diagram to show the ionic bonding in aluminium oxide