Giant Covalent Structures and Fullerenes Flashcards
1
Q
Describe, generally, the bonding in carbon-based giant covalent structures.
A
All of their carbon atoms are bonded together by strong covalent bonds
2
Q
Give 2 examples of giant covalent substances.
A
- Diamond
- Graphite
3
Q
Describe the structure of diamond.
A
Each carbon atom forms four covalent bonds
4
Q
Explain the properties of diamond.
A
- Has a high melting point because it has many strong covalent bonds which require a lot of energy to break
- Doesn’t conduct electricity because it has no free electrons or ions
- It is very strong as the covalent bonds hold the carbon atoms in a rigid lattice structure
- It is used to strengthen cutting tools because of its hardness
5
Q
Describe the structure of graphite.
A
Each carbon atom forms three covalent bonds, creating sheets of carbon atoms arranged in hexagons
6
Q
Explain the properties of graphite.
A
- Has a high melting point because it has many strong covalent bonds which require a lot of energy to break
- Can conduct electricity because each of its carbon atoms have one delocalised electron that can move and carry a charge
- It is soft and slippery because the sheets of carbon atoms are held together weakly, so they are free to move over each other
7
Q
(Exam-style question)
A
8
Q
Give 2 examples of fullerenes.
A
- Graphene
- Fullerene C₆₀
9
Q
Explain the properties of graphene.
A
- Has a high melting point because it has many strong covalent bonds which require a lot of energy to break
- Can conduct electricity because each of its carbon atoms have one delocalised electron that can move and carry a charge
- It is strong as the covalent bonds hold the carbon atoms in a lattice structure
10
Q
Explain the properties of the fullerene ‘C₆₀’.
A
- Has a low melting point because the weak intermolecular forces holding the molecules together can be broken easily
- It is a poor conductor of electricity as there is little movement of electrons between its molecules
- It is weak because it has a molecular structure, meaning there are weak forces between fullerene molecules