The conduction band in metals is the highest energy level in which electrons are free to move and conduct electricity. It is typically partially filled with electrons, allowing for the easy flow of electricity.
The energy of the valence band is lower than the energy of the conduction band in metals. This means that electrons in the valence band are more tightly bound to the atoms, while those in the conduction band are more free to move.
The valence band is significant because it contains the electrons that are responsible for the chemical and physical properties of metals. These electrons are involved in bonding between atoms and contribute to the conductivity of the metal.
Impurities can introduce additional energy levels in the conduction and valence bands, altering the properties of the metal. For example, impurities can increase or decrease the conductivity of a metal by affecting the number of electrons in the conduction band.
Yes, the conduction and valence bands in metals can overlap. This is known as a partially filled band and is a characteristic of metals that have high electrical conductivity. In these cases, electrons can easily move between the conduction and valence bands, contributing to the metal's ability to conduct electricity.