Layered double hydroxides (LDH) are a class of ionic solids characterized by a layered structure with the generic layer sequence [AcBZAcB]n, where c represents layers of metal cations, A and B are layers of hydroxide (HO−
) anions, and Z are layers of other anions and neutral molecules (such as water). Lateral offsets between the layers may result in longer repeating periods.
The intercalated anions (Z) are weakly bound, often exchangeable; their intercalation properties have scientific and commercial interest.
LDHs occur in nature as minerals, as byproducts of metabolism of certain bacteria, and also unintentionally in man-made contexts, such as the products of corrosion of metal objects.
LDHs can be seen as derived from hydroxides of divalent cations with the brucite layer structure [AdBAdB]n, by oxidation or cation replacement in the metal layers (d), so as to give them an excess positive electric charge; and intercalation of extra anion layers (Z) between the hydroxide layers (A,B)to neutralize that charge, resulting in the structure [AcBZAcB]n. LDHs can be formed with a wide variety of anions in the intercalated layers (Z), such as Cl−, Br−, NO−
3, CO2−
3, SO2−
4 and SeO2−
4.