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• • • In, the electronic band structure (or simply band structure) of a describes the range of that an within the solid may have (called energy bands, allowed bands, or simply bands) and ranges of energy that it may not have (called or forbidden bands). Band theory derives these bands and band gaps by examining the allowed quantum mechanical for an electron in a large, periodic lattice of atoms or molecules. Band theory has been successfully used to explain many physical properties of solids, such as and, and forms the foundation of the understanding of all (transistors, solar cells, etc.).
Showing how electronic band structure comes about by the hypothetical example of a large number of carbon atoms being brought together to form a diamond crystal. The graph (right) shows the energy levels as a function of the spacing between atoms. When the atoms are far apart (right side of graph) each atom has valence atomic orbitals p and s which have the same energy. However when the atoms come closer together their orbitals begin to overlap. Due to the Pauli Exclusion Principle each atomic orbital splits into N molecular orbitals each with a different energy, where N is the number of atoms in the crystal. Since N is such a large number, adjacent orbitals are extremely close together in energy so the orbitals can be considered a continuous energy band.
A is the atomic spacing in an actual crystal of diamond. At that spacing the orbitals form two bands, called the valence and conduction bands, with a 5.5 eV band gap between them. Animation of band formation and how electrons fill them in a metal and an insulator The electrons of a single, isolated atom occupy each of which has a discrete. When two or more atoms join together to form into a, their atomic orbitals overlap.
The dictates that no two electrons can have the same quantum numbers in a molecule. So if two identical atoms combine to form a, each atomic orbital splits into two of different energy, allowing the electrons in the former atomic orbitals to occupy the new orbital structure without any having the same energy. Similarly if a large number N of identical atoms come together to form a solid, such as a, the atoms' atomic orbitals overlap.
Since the Pauli exclusion principle dictates that no two electrons in the solid have the same quantum numbers, each atomic orbital splits into N discrete molecular orbitals, each with a different energy. Since the number of atoms in a macroscopic piece of solid is a very large number (N~10 22) the number of orbitals is very large and thus they are very closely spaced in energy (of the order of 10 −22 eV).