A molecular dynamics study of the role of the cation in modifying the structure of alkali borate glasses

The structures of the full series of alkali borate glasses (M2O)x(B2O3)1−x (M = Li, Na, K, Rb and Cs) at two different concentrations, x = 0.14 and x = 0.30, have been investigated by means of molecular dynamics simulations. Additional compositions have also been investigated for the lithium and caesium borate glasses (x = 0.10, 0.20, 0.25, and 0.40). The main experimental trends are well reproduced by the simulations, even if the agreement is not quantitative. Our results indicate that lithium atoms can enter into the matrix of pure vitreous B2O3 without inducing large modifications in the B-O network, even at large concentrations. However when the other alkali ions are added to the initial structure, the network opens to accommodate the larger size of the cation. These modifications induce the appearance of a low-Q shoulder or pre-peak, whose intensity increases with increasing alkali concentration as well as with increasing alkali size.