Reaction enthalpies for the hydrolysis of 3p, 4p and early 3d oxide bridges - how unique are the oligophosphates?

Journal article, 2001

The hydrolysis of M–O–M bridges in binuclear oxyhydroxides of the 3p, 4p and early 3d elements is investigated by quantum chemistry. The reaction enthalpies for the water addition reactions are compared. Hydrolysis of oxygen bridges is found endothermic for the Al–P, Ga–As and Sc–Mn species, but exothermic for the S, Se, Cl and Br species. The hydrolysis of pyrophosphoric acid is unique in displaying the reaction enthalpy, which is closest to zero. This fact is taken to explain why the oligophosphates are utilised in controlling cellular reactions, as the hydrolysis energetics rely entirely on local conditions.