The structures of ion-associated species between Na+, Li+, Mg2+ and SO42- ions were optimized via ab initio calculations. And the influences of the cations to the nu(1)-SO24- frequencies were also investigated. For the ion-associated structures, when there are fewer cations, the repulsion between cations will decrease and thus the bidentate associated structures are easy to form, in which there is shorter distance between metal ion and SO42-. Contrarily, comparing with the increase of the number of cations in the ion clusters, especially for more Mg2+ ions which have more positive charge, the repulsions between metal ions would make the clusters instable and more monodentate structures are formed, in which the distances between metal and SO24- ions are longer. The metal ions could influence the nu(1)-SO42- frequencies via two ways. The first one is polarization of the cation, which leads the nu(1)-SO42- frequency red-shift, while another one is M-O bonding action, which lead the opposite blue-shift. When the number of metal ions <= 2, the first one is dominated. The first metal ion can lead the nu(1)-SO42- frequency red-shift, while more metal ions from different directions would decrease the red-shift. When the number of metal ions >2, the M-O bonding action is the main interaction manner. The increase of the monodentate associated structures in the quadruple or quintuple ion clusters, which can lead the more blue-shift than those of the bidentate ones, will make the nu(1)-SO42- frequency more blue-shift than those in the triple ion clusters.

• 出版日期2012-7-10
• 单位吉林大学; 辽宁工程技术大学