Ionic bond

An ionic bond can be formed after two or more atoms lose or gain electrons to form an ion. Ionic bonds occur between metals, losing electrons, and non-metals, gaining electrons. Ions with opposite charges will attract one another creating an ionic bond. Such bonds are stronger than hydrogen bonds, but similar in strength to covalent bonds.

Li+F\ \ \ \to \ \ \ Li^{+}F^{-}\,\!

3Na+P\ \ \ \to \ \ \ Na_{3}^{+}P^{3-}

It only occurs if the overall energy change for the reaction is favourable (the bonded atoms have a lower energy than the free ones). The larger the energy change the stronger the bond.

Pure ionic bonding doesn't actually happen with real atoms. All bonds have a small amount of covalency. The larger the difference in electronegativity the more ionic the bond.

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The diagram above shows the electron configurations of lithium and fluorine. Note that lithium has one electron in its outer shell. This electron is held rather loosely (because the ionisation energy is very different in the two ions). Note also that fluorine has 7 electrons in its outer shell. If the electron moves from lithium to fluorine each ion acquires the configuration of a noble gas. The bonding energy (from the electrostatic attraction of the two oppositely charged ions) is large enough (negative value) that the overall bonded state energy is lower than the unbonded state.

Impression of two ions (for example [Na]⁺ and [Cl]^-) forming an ionic bond. Electron orbitals generally do not overlap (ie. molecular orbitals are not formed), because each of the ions reached the lowest energy state, and the bond is based only (ideally) on the electrostatic interactions between positive and negative ions.

Difference between ionic and covalent bonds

In an ionic bond, the atoms are bound by attraction of opposite ions, whereas in a covalent bond, atoms are bound by sharing electrons. In covalent bonding, the geometry around each atom is determined by VSEPR rules, whereas in ionic materials, the geometry follows maximum packing rules. Thus, a compound can be classified as ionic or covalent based on the geometry of the atoms.

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de:Ionische Bindung et:Iooniline side es:Enlace iónico fr:Liaison ionique it:Legame ionico he:קשר יוני nl:Ionaire binding ja:イオン結合 nn:Ionebinding pt:Ligação iônica sl:Ionska vez fi:Ionisidos th:พันธะไอออน zh:离子键

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