Topic 2: Structure Flashcards
Structure of Graphite
Giant covalent structure
Each carbon forms 3 bonds, with a delocalised electron.
There are strong covalent bonds between carbon atoms, yet weak intermolecular forces between the layers - they easily slide over each other.
Delocalised electrons allow graphite to conduct electricity, as the electrons can carry a charge.
Insoluble, soft, slippery
Structure of Diamond
Each carbon forms 4 bonds
Tightly packed rigid arrangement allows heat to be conducted well.
High melting point due to many strong covalent bonds.
Does not conduct electricity as it has no delocalised electrons.
Insoluble,
Uses of diamond
Very strong structure, so can be used to cut gemstones
Structure of Graphene
One layer of graphite - 1 atom thick
Very lightweight
Conducts electricity as the delocalised electrons are free to carry the charge. The electrons also strengthen the covalent bonds - making it very strong
Uses of Graphene
- Aircraft shells
- Super computers and high speed computing
- Smart phone screens
Where are giant lattices present?
- Ionic solids -> Giant ionic lattices
- Covalently bonded solids -> e.g. diamond
- Solid metals -> Giant metallic lattices
Describe an ionic lattice
- Evenly distributed crystalline structure
- Ions arranged in a regular repeating pattern
- The attraction occurs in all directions
- Overall charge of 0
Describe a metallic lattice
- The metal ions are surrounded by a ‘sea’ of delocalised electrons
Describe a covalent lattice
They can be either simple or giant molecular lattices
Give examples of simple covalent lattices
Iodine - I2
Ice - H2O
Buckminsterfullerene - C60
Give examples of giant covalent lattices
Silicon (VI) oxide
Diamond
Graphite
