6dz2 electron orbital, illustration. An electron orbital is a region around an atomic nucleus (not seen) in which one or a pair of electrons is most likely to exist. The 6dz2 orbital has a unique shape consisting of twelve lobes elongated along the z-axis, including three doughnut-shaped regions around the nucleus on the x-y plane. The orbital is seen transparent at middle to show the axes of symmetry and the two conical nodes and three spherical nodes can be seen at right. Nodes are the regions in an atom with zero electron density and where the electron is least likely to exist. For the 6dz2 electron orbital, 6 indicates that it is the sixth energy level, d indicates that the orbital is specifically a d-orbital, and (z2) indicates that the lobes of the orbital are oriented along the z-axis. The 6dz2 orbital can accommodate up to 2 electrons. It is part of the 6d shell, which contains five orbitals in total. The 6d orbitals are part of the 6 shell, which also contains one spherical 6s orbital and three bi-lobed 6p orbitals, both at a lower energy, and seven lobed 6f orbitals at a higher energy level (not seen).