1) Aufbau principle is a scheme used to reproduce the electron configurations Ā of the ground states of atoms by successively filling subshells with electrons in a specific Ā order, filling subshells in the following order: 1s, 2s, Ā 2p, 3s, 3p, 4s, 3d, 4p, 5s, 4d, 5p, 6s, 4f, 5d, 6p, 7s, 5f.
First exceptions to the Aufbau principle is for example chromium atom (Cr).
Chromium has atomic number 24, it means it has 24 protons and 24 electrons.
The Aufbau principle predicts the configuration Ā [Ar] 3dā“ 4sĀ².
But the correct electron configuration of chromim atom is:
āāCr 1sĀ² 2sĀ² 2pā¶ 3sĀ² 3pā¶ 3dāµ 4sĀ¹ or Ā [Ar] 3dāµ 4sĀ¹.
In chromium, half full d-sub level (3d) is more stable than a partially filled d sub-level (3dā“), that is why an electron from the 4s orbital goes to a 3d orbital.
2) Second example is gallium atom (Ga).
Gallium has atomic number 31, it has 31 protons and 31 electrons.
The Aufbau principle predicts the configuration:
āāGa 1sĀ² 2sĀ² 2pā¶ 3sĀ² 3pā¶ 3dĀ¹ā° 4sĀ² 4pĀ¹.
The correct electron configuration for gallium atom is:
āāGa 1sĀ² 2sĀ² 2pā¶ 3sĀ² 3pā¶ 4sĀ² 3dĀ¹ā° 4pĀ¹.
That is because 3d subshell has lower energy, when is filled with electrons, than 4s subshell.
Valence electrons are in 4s and 4p orbitals, because when gallium loses three electrons, it has electron configuration:
āāGaĀ³āŗ 1sĀ² 2sĀ² 2pā¶ 3sĀ² 3pā¶ 3dĀ¹ā°.
