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Antibonding molecular orbital : ウィキペディア英語版
Antibonding molecular orbital

In chemical bonding theory, an antibonding orbital is a type of molecular orbital that, if occupied by electrons, weakens the bond between two atoms and helps to raise the energy of the molecule relative to the separated atoms. Such an orbital has one or more nodes in the bonding region between the nuclei. The density of the electrons in the orbital is concentrated outside the bonding region and acts to pull one nucleus away from the other and tends to cause mutual repulsion between the two atoms.〔Atkins P. and de Paula J. ''Atkins Physical Chemistry''. 8th ed. (W.H. Freeman 2006), p.371 ISBN 0-7167-8759-8〕〔Miessler G.L. and Tarr D.A., ''Inorganic Chemistry'' 2nd ed. (Prentice-Hall 1999), p.111 ISBN 0-13-841891-8〕
==Diatomic molecules==
Antibonding molecular orbitals (MOs) are normally ''higher'' in energy than bonding molecular orbitals. Bonding and antibonding orbitals form when atoms combine into molecules. If two hydrogen atoms are initially far apart, they have identical energy levels. However, as the spacing between the two atoms becomes smaller, the electron wave functions begin to overlap. Each energy level of the isolated atoms (for example, the ground state energy level, 1''s'') splits into two molecular orbitals belonging to the pair, one lower in energy than the original atomic level and one higher. The orbital which is lower than the orbitals of the separate atoms is the bonding orbital, which is more stable and promotes the bonding of the two H atoms into H2. The higher-energy orbital is the antibonding orbital, which is less stable and opposes bonding if it is occupied. In a molecule such as H2, the two electrons normally occupy the lower-energy bonding orbital, so that the molecule is more stable than the separate H atoms.
A molecular orbital becomes antibonding when there is less electron density between the two nuclei than there would be if there were no bonding interaction at all. When a molecular orbital changes sign (from positive to negative) at a ''nodal plane'' between two atoms, it is said to be ''antibonding with respect to those atoms''. Antibonding orbitals are often labelled with an asterisk (
*) on molecular orbital diagrams.

In homonuclear diatomic molecules, σ
* (''sigma star'') antibonding orbitals have no nodal planes passing through the two nuclei, like sigma bonds, and π
* (''pi star'') orbitals have one nodal plane passing through the two nuclei, like pi bonds. The Pauli exclusion principle dictates that no two electrons in an interacting system may have the same quantum state. If the bonding orbitals are filled, then any additional electrons will occupy antibonding orbitals. This occurs in the He2 molecule, in which both the 1sσ and 1sσ
* orbitals are filled. Since the ''antibonding orbital is more antibonding than the bonding orbital is bonding'', the molecule has a higher energy than two separated helium atoms, and it is therefore unstable.

抄文引用元・出典: フリー百科事典『 ウィキペディア(Wikipedia)
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